"""Tests the Python Domain""" from __future__ import annotations import re from unittest.mock import Mock import docutils.utils import pytest from docutils import nodes from sphinx import addnodes from sphinx.addnodes import ( desc, desc_addname, desc_annotation, desc_content, desc_name, desc_optional, desc_parameter, desc_parameterlist, desc_returns, desc_sig_keyword, desc_sig_literal_number, desc_sig_literal_string, desc_sig_name, desc_sig_operator, desc_sig_punctuation, desc_sig_space, desc_signature, desc_type_parameter, desc_type_parameter_list, pending_xref, ) from sphinx.domains import IndexEntry from sphinx.domains.python import ( PythonDomain, PythonModuleIndex, _parse_annotation, _pseudo_parse_arglist, py_sig_re, ) from sphinx.testing import restructuredtext from sphinx.testing.util import assert_node from sphinx.writers.text import STDINDENT def parse(sig): m = py_sig_re.match(sig) if m is None: raise ValueError name_prefix, tp_list, name, arglist, retann = m.groups() signode = addnodes.desc_signature(sig, '') _pseudo_parse_arglist(signode, arglist) return signode.astext() def test_function_signatures(): rv = parse('func(a=1) -> int object') assert rv == '(a=1)' rv = parse('func(a=1, [b=None])') assert rv == '(a=1, [b=None])' rv = parse('func(a=1[, b=None])') assert rv == '(a=1, [b=None])' rv = parse("compile(source : string, filename, symbol='file')") assert rv == "(source : string, filename, symbol='file')" rv = parse('func(a=[], [b=None])') assert rv == '(a=[], [b=None])' rv = parse('func(a=[][, b=None])') assert rv == '(a=[], [b=None])' @pytest.mark.sphinx('dummy', testroot='domain-py') def test_domain_py_xrefs(app, status, warning): """Domain objects have correct prefixes when looking up xrefs""" app.builder.build_all() def assert_refnode(node, module_name, class_name, target, reftype=None, domain='py'): attributes = { 'refdomain': domain, 'reftarget': target, } if reftype is not None: attributes['reftype'] = reftype if module_name is not False: attributes['py:module'] = module_name if class_name is not False: attributes['py:class'] = class_name assert_node(node, **attributes) doctree = app.env.get_doctree('roles') refnodes = list(doctree.findall(pending_xref)) assert_refnode(refnodes[0], None, None, 'TopLevel', 'class') assert_refnode(refnodes[1], None, None, 'top_level', 'meth') assert_refnode(refnodes[2], None, 'NestedParentA', 'child_1', 'meth') assert_refnode(refnodes[3], None, 'NestedParentA', 'NestedChildA.subchild_2', 'meth') assert_refnode(refnodes[4], None, 'NestedParentA', 'child_2', 'meth') assert_refnode(refnodes[5], False, 'NestedParentA', 'any_child', domain='') assert_refnode(refnodes[6], None, 'NestedParentA', 'NestedChildA', 'class') assert_refnode(refnodes[7], None, 'NestedParentA.NestedChildA', 'subchild_2', 'meth') assert_refnode(refnodes[8], None, 'NestedParentA.NestedChildA', 'NestedParentA.child_1', 'meth') assert_refnode(refnodes[9], None, 'NestedParentA', 'NestedChildA.subchild_1', 'meth') assert_refnode(refnodes[10], None, 'NestedParentB', 'child_1', 'meth') assert_refnode(refnodes[11], None, 'NestedParentB', 'NestedParentB', 'class') assert_refnode(refnodes[12], None, None, 'NestedParentA.NestedChildA', 'class') assert len(refnodes) == 13 doctree = app.env.get_doctree('module') refnodes = list(doctree.findall(pending_xref)) assert_refnode(refnodes[0], 'module_a.submodule', None, 'ModTopLevel', 'class') assert_refnode(refnodes[1], 'module_a.submodule', 'ModTopLevel', 'mod_child_1', 'meth') assert_refnode(refnodes[2], 'module_a.submodule', 'ModTopLevel', 'ModTopLevel.mod_child_1', 'meth') assert_refnode(refnodes[3], 'module_a.submodule', 'ModTopLevel', 'mod_child_2', 'meth') assert_refnode(refnodes[4], 'module_a.submodule', 'ModTopLevel', 'module_a.submodule.ModTopLevel.mod_child_1', 'meth') assert_refnode(refnodes[5], 'module_a.submodule', 'ModTopLevel', 'prop', 'attr') assert_refnode(refnodes[6], 'module_a.submodule', 'ModTopLevel', 'prop', 'meth') assert_refnode(refnodes[7], 'module_b.submodule', None, 'ModTopLevel', 'class') assert_refnode(refnodes[8], 'module_b.submodule', 'ModTopLevel', 'ModNoModule', 'class') assert_refnode(refnodes[9], False, False, 'int', 'class') assert_refnode(refnodes[10], False, False, 'tuple', 'class') assert_refnode(refnodes[11], False, False, 'str', 'class') assert_refnode(refnodes[12], False, False, 'float', 'class') assert_refnode(refnodes[13], False, False, 'list', 'class') assert_refnode(refnodes[14], False, False, 'ModTopLevel', 'class') assert_refnode(refnodes[15], False, False, 'index', 'doc', domain='std') assert len(refnodes) == 16 doctree = app.env.get_doctree('module_option') refnodes = list(doctree.findall(pending_xref)) print(refnodes) print(refnodes[0]) print(refnodes[1]) assert_refnode(refnodes[0], 'test.extra', 'B', 'foo', 'meth') assert_refnode(refnodes[1], 'test.extra', 'B', 'foo', 'meth') assert len(refnodes) == 2 @pytest.mark.sphinx('html', testroot='domain-py') def test_domain_py_xrefs_abbreviations(app, status, warning): app.builder.build_all() content = (app.outdir / 'abbr.html').read_text(encoding='utf8') assert re.search(r'normal: <.*>module_a.submodule.ModTopLevel.mod_child_1\(\)' r'<.*>', content) assert re.search(r'relative: <.*>ModTopLevel.mod_child_1\(\)<.*>', content) assert re.search(r'short name: <.*>mod_child_1\(\)<.*>', content) assert re.search(r'relative \+ short name: <.*>mod_child_1\(\)<.*>', content) assert re.search(r'short name \+ relative: <.*>mod_child_1\(\)<.*>', content) @pytest.mark.sphinx('dummy', testroot='domain-py') def test_domain_py_objects(app, status, warning): app.builder.build_all() modules = app.env.domains['py'].data['modules'] objects = app.env.domains['py'].data['objects'] assert 'module_a.submodule' in modules assert 'module_a.submodule' in objects assert 'module_b.submodule' in modules assert 'module_b.submodule' in objects assert objects['module_a.submodule.ModTopLevel'][2] == 'class' assert objects['module_a.submodule.ModTopLevel.mod_child_1'][2] == 'method' assert objects['module_a.submodule.ModTopLevel.mod_child_2'][2] == 'method' assert 'ModTopLevel.ModNoModule' not in objects assert objects['ModNoModule'][2] == 'class' assert objects['module_b.submodule.ModTopLevel'][2] == 'class' assert objects['TopLevel'][2] == 'class' assert objects['top_level'][2] == 'method' assert objects['NestedParentA'][2] == 'class' assert objects['NestedParentA.child_1'][2] == 'method' assert objects['NestedParentA.any_child'][2] == 'method' assert objects['NestedParentA.NestedChildA'][2] == 'class' assert objects['NestedParentA.NestedChildA.subchild_1'][2] == 'method' assert objects['NestedParentA.NestedChildA.subchild_2'][2] == 'method' assert objects['NestedParentA.child_2'][2] == 'method' assert objects['NestedParentB'][2] == 'class' assert objects['NestedParentB.child_1'][2] == 'method' @pytest.mark.sphinx('html', testroot='domain-py') def test_resolve_xref_for_properties(app, status, warning): app.builder.build_all() content = (app.outdir / 'module.html').read_text(encoding='utf8') assert ('Link to ' '' 'prop attribute' in content) assert ('Link to ' '' 'prop method' in content) assert ('Link to ' '' 'prop attribute' in content) @pytest.mark.sphinx('dummy', testroot='domain-py') def test_domain_py_find_obj(app, status, warning): def find_obj(modname, prefix, obj_name, obj_type, searchmode=0): return app.env.domains['py'].find_obj( app.env, modname, prefix, obj_name, obj_type, searchmode) app.builder.build_all() assert (find_obj(None, None, 'NONEXISTANT', 'class') == []) assert (find_obj(None, None, 'NestedParentA', 'class') == [('NestedParentA', ('roles', 'NestedParentA', 'class', False))]) assert (find_obj(None, None, 'NestedParentA.NestedChildA', 'class') == [('NestedParentA.NestedChildA', ('roles', 'NestedParentA.NestedChildA', 'class', False))]) assert (find_obj(None, 'NestedParentA', 'NestedChildA', 'class') == [('NestedParentA.NestedChildA', ('roles', 'NestedParentA.NestedChildA', 'class', False))]) assert (find_obj(None, None, 'NestedParentA.NestedChildA.subchild_1', 'meth') == [('NestedParentA.NestedChildA.subchild_1', ('roles', 'NestedParentA.NestedChildA.subchild_1', 'method', False))]) assert (find_obj(None, 'NestedParentA', 'NestedChildA.subchild_1', 'meth') == [('NestedParentA.NestedChildA.subchild_1', ('roles', 'NestedParentA.NestedChildA.subchild_1', 'method', False))]) assert (find_obj(None, 'NestedParentA.NestedChildA', 'subchild_1', 'meth') == [('NestedParentA.NestedChildA.subchild_1', ('roles', 'NestedParentA.NestedChildA.subchild_1', 'method', False))]) @pytest.mark.sphinx('html', testroot='domain-py', freshenv=True) def test_domain_py_canonical(app, status, warning): app.builder.build_all() content = (app.outdir / 'canonical.html').read_text(encoding='utf8') assert ('' '' 'Foo' in content) assert warning.getvalue() == '' def test_get_full_qualified_name(): env = Mock(domaindata={}) domain = PythonDomain(env) # non-python references node = nodes.reference() assert domain.get_full_qualified_name(node) is None # simple reference node = nodes.reference(reftarget='func') assert domain.get_full_qualified_name(node) == 'func' # with py:module context kwargs = {'py:module': 'module1'} node = nodes.reference(reftarget='func', **kwargs) assert domain.get_full_qualified_name(node) == 'module1.func' # with py:class context kwargs = {'py:class': 'Class'} node = nodes.reference(reftarget='func', **kwargs) assert domain.get_full_qualified_name(node) == 'Class.func' # with both py:module and py:class context kwargs = {'py:module': 'module1', 'py:class': 'Class'} node = nodes.reference(reftarget='func', **kwargs) assert domain.get_full_qualified_name(node) == 'module1.Class.func' def test_parse_annotation(app): doctree = _parse_annotation("int", app.env) assert_node(doctree, ([pending_xref, "int"],)) assert_node(doctree[0], pending_xref, refdomain="py", reftype="class", reftarget="int") doctree = _parse_annotation("List[int]", app.env) assert_node(doctree, ([pending_xref, "List"], [desc_sig_punctuation, "["], [pending_xref, "int"], [desc_sig_punctuation, "]"])) doctree = _parse_annotation("Tuple[int, int]", app.env) assert_node(doctree, ([pending_xref, "Tuple"], [desc_sig_punctuation, "["], [pending_xref, "int"], [desc_sig_punctuation, ","], desc_sig_space, [pending_xref, "int"], [desc_sig_punctuation, "]"])) doctree = _parse_annotation("Tuple[()]", app.env) assert_node(doctree, ([pending_xref, "Tuple"], [desc_sig_punctuation, "["], [desc_sig_punctuation, "("], [desc_sig_punctuation, ")"], [desc_sig_punctuation, "]"])) doctree = _parse_annotation("Tuple[int, ...]", app.env) assert_node(doctree, ([pending_xref, "Tuple"], [desc_sig_punctuation, "["], [pending_xref, "int"], [desc_sig_punctuation, ","], desc_sig_space, [desc_sig_punctuation, "..."], [desc_sig_punctuation, "]"])) doctree = _parse_annotation("Callable[[int, int], int]", app.env) assert_node(doctree, ([pending_xref, "Callable"], [desc_sig_punctuation, "["], [desc_sig_punctuation, "["], [pending_xref, "int"], [desc_sig_punctuation, ","], desc_sig_space, [pending_xref, "int"], [desc_sig_punctuation, "]"], [desc_sig_punctuation, ","], desc_sig_space, [pending_xref, "int"], [desc_sig_punctuation, "]"])) doctree = _parse_annotation("Callable[[], int]", app.env) assert_node(doctree, ([pending_xref, "Callable"], [desc_sig_punctuation, "["], [desc_sig_punctuation, "["], [desc_sig_punctuation, "]"], [desc_sig_punctuation, ","], desc_sig_space, [pending_xref, "int"], [desc_sig_punctuation, "]"])) doctree = _parse_annotation("List[None]", app.env) assert_node(doctree, ([pending_xref, "List"], [desc_sig_punctuation, "["], [pending_xref, "None"], [desc_sig_punctuation, "]"])) # None type makes an object-reference (not a class reference) doctree = _parse_annotation("None", app.env) assert_node(doctree, ([pending_xref, "None"],)) assert_node(doctree[0], pending_xref, refdomain="py", reftype="obj", reftarget="None") # Literal type makes an object-reference (not a class reference) doctree = _parse_annotation("typing.Literal['a', 'b']", app.env) assert_node(doctree, ([pending_xref, "Literal"], [desc_sig_punctuation, "["], [desc_sig_literal_string, "'a'"], [desc_sig_punctuation, ","], desc_sig_space, [desc_sig_literal_string, "'b'"], [desc_sig_punctuation, "]"])) assert_node(doctree[0], pending_xref, refdomain="py", reftype="obj", reftarget="typing.Literal") def test_parse_annotation_suppress(app): doctree = _parse_annotation("~typing.Dict[str, str]", app.env) assert_node(doctree, ([pending_xref, "Dict"], [desc_sig_punctuation, "["], [pending_xref, "str"], [desc_sig_punctuation, ","], desc_sig_space, [pending_xref, "str"], [desc_sig_punctuation, "]"])) assert_node(doctree[0], pending_xref, refdomain="py", reftype="obj", reftarget="typing.Dict") def test_parse_annotation_Literal(app): doctree = _parse_annotation("Literal[True, False]", app.env) assert_node(doctree, ([pending_xref, "Literal"], [desc_sig_punctuation, "["], [desc_sig_keyword, "True"], [desc_sig_punctuation, ","], desc_sig_space, [desc_sig_keyword, "False"], [desc_sig_punctuation, "]"])) doctree = _parse_annotation("typing.Literal[0, 1, 'abc']", app.env) assert_node(doctree, ([pending_xref, "Literal"], [desc_sig_punctuation, "["], [desc_sig_literal_number, "0"], [desc_sig_punctuation, ","], desc_sig_space, [desc_sig_literal_number, "1"], [desc_sig_punctuation, ","], desc_sig_space, [desc_sig_literal_string, "'abc'"], [desc_sig_punctuation, "]"])) def test_pyfunction_signature(app): text = ".. py:function:: hello(name: str) -> str" doctree = restructuredtext.parse(app, text) assert_node(doctree, (addnodes.index, [desc, ([desc_signature, ([desc_name, "hello"], desc_parameterlist, [desc_returns, pending_xref, "str"])], desc_content)])) assert_node(doctree[1], addnodes.desc, desctype="function", domain="py", objtype="function", no_index=False) assert_node(doctree[1][0][1], [desc_parameterlist, desc_parameter, ([desc_sig_name, "name"], [desc_sig_punctuation, ":"], desc_sig_space, [nodes.inline, pending_xref, "str"])]) def test_pyfunction_signature_full(app): text = (".. py:function:: hello(a: str, b = 1, *args: str, " "c: bool = True, d: tuple = (1, 2), **kwargs: str) -> str") doctree = restructuredtext.parse(app, text) assert_node(doctree, (addnodes.index, [desc, ([desc_signature, ([desc_name, "hello"], desc_parameterlist, [desc_returns, pending_xref, "str"])], desc_content)])) assert_node(doctree[1], addnodes.desc, desctype="function", domain="py", objtype="function", no_index=False) assert_node(doctree[1][0][1], [desc_parameterlist, ([desc_parameter, ([desc_sig_name, "a"], [desc_sig_punctuation, ":"], desc_sig_space, [desc_sig_name, pending_xref, "str"])], [desc_parameter, ([desc_sig_name, "b"], [desc_sig_operator, "="], [nodes.inline, "1"])], [desc_parameter, ([desc_sig_operator, "*"], [desc_sig_name, "args"], [desc_sig_punctuation, ":"], desc_sig_space, [desc_sig_name, pending_xref, "str"])], [desc_parameter, ([desc_sig_name, "c"], [desc_sig_punctuation, ":"], desc_sig_space, [desc_sig_name, pending_xref, "bool"], desc_sig_space, [desc_sig_operator, "="], desc_sig_space, [nodes.inline, "True"])], [desc_parameter, ([desc_sig_name, "d"], [desc_sig_punctuation, ":"], desc_sig_space, [desc_sig_name, pending_xref, "tuple"], desc_sig_space, [desc_sig_operator, "="], desc_sig_space, [nodes.inline, "(1, 2)"])], [desc_parameter, ([desc_sig_operator, "**"], [desc_sig_name, "kwargs"], [desc_sig_punctuation, ":"], desc_sig_space, [desc_sig_name, pending_xref, "str"])])]) # case: separator at head text = ".. py:function:: hello(*, a)" doctree = restructuredtext.parse(app, text) assert_node(doctree[1][0][1], [desc_parameterlist, ([desc_parameter, nodes.inline, "*"], [desc_parameter, desc_sig_name, "a"])]) # case: separator in the middle text = ".. py:function:: hello(a, /, b, *, c)" doctree = restructuredtext.parse(app, text) assert_node(doctree[1][0][1], [desc_parameterlist, ([desc_parameter, desc_sig_name, "a"], [desc_parameter, desc_sig_operator, "/"], [desc_parameter, desc_sig_name, "b"], [desc_parameter, desc_sig_operator, "*"], [desc_parameter, desc_sig_name, "c"])]) # case: separator in the middle (2) text = ".. py:function:: hello(a, /, *, b)" doctree = restructuredtext.parse(app, text) assert_node(doctree[1][0][1], [desc_parameterlist, ([desc_parameter, desc_sig_name, "a"], [desc_parameter, desc_sig_operator, "/"], [desc_parameter, desc_sig_operator, "*"], [desc_parameter, desc_sig_name, "b"])]) # case: separator at tail text = ".. py:function:: hello(a, /)" doctree = restructuredtext.parse(app, text) assert_node(doctree[1][0][1], [desc_parameterlist, ([desc_parameter, desc_sig_name, "a"], [desc_parameter, desc_sig_operator, "/"])]) def test_pyfunction_with_unary_operators(app): text = ".. py:function:: menu(egg=+1, bacon=-1, sausage=~1, spam=not spam)" doctree = restructuredtext.parse(app, text) assert_node(doctree[1][0][1], [desc_parameterlist, ([desc_parameter, ([desc_sig_name, "egg"], [desc_sig_operator, "="], [nodes.inline, "+1"])], [desc_parameter, ([desc_sig_name, "bacon"], [desc_sig_operator, "="], [nodes.inline, "-1"])], [desc_parameter, ([desc_sig_name, "sausage"], [desc_sig_operator, "="], [nodes.inline, "~1"])], [desc_parameter, ([desc_sig_name, "spam"], [desc_sig_operator, "="], [nodes.inline, "not spam"])])]) def test_pyfunction_with_binary_operators(app): text = ".. py:function:: menu(spam=2**64)" doctree = restructuredtext.parse(app, text) assert_node(doctree[1][0][1], [desc_parameterlist, ([desc_parameter, ([desc_sig_name, "spam"], [desc_sig_operator, "="], [nodes.inline, "2**64"])])]) def test_pyfunction_with_number_literals(app): text = ".. py:function:: hello(age=0x10, height=1_6_0)" doctree = restructuredtext.parse(app, text) assert_node(doctree[1][0][1], [desc_parameterlist, ([desc_parameter, ([desc_sig_name, "age"], [desc_sig_operator, "="], [nodes.inline, "0x10"])], [desc_parameter, ([desc_sig_name, "height"], [desc_sig_operator, "="], [nodes.inline, "1_6_0"])])]) def test_pyfunction_with_union_type_operator(app): text = ".. py:function:: hello(age: int | None)" doctree = restructuredtext.parse(app, text) assert_node(doctree[1][0][1], [desc_parameterlist, ([desc_parameter, ([desc_sig_name, "age"], [desc_sig_punctuation, ":"], desc_sig_space, [desc_sig_name, ([pending_xref, "int"], desc_sig_space, [desc_sig_punctuation, "|"], desc_sig_space, [pending_xref, "None"])])])]) def test_optional_pyfunction_signature(app): text = ".. py:function:: compile(source [, filename [, symbol]]) -> ast object" doctree = restructuredtext.parse(app, text) assert_node(doctree, (addnodes.index, [desc, ([desc_signature, ([desc_name, "compile"], desc_parameterlist, [desc_returns, pending_xref, "ast object"])], desc_content)])) assert_node(doctree[1], addnodes.desc, desctype="function", domain="py", objtype="function", no_index=False) assert_node(doctree[1][0][1], ([desc_parameter, ([desc_sig_name, "source"])], [desc_optional, ([desc_parameter, ([desc_sig_name, "filename"])], [desc_optional, desc_parameter, ([desc_sig_name, "symbol"])])])) def test_pyexception_signature(app): text = ".. py:exception:: builtins.IOError" doctree = restructuredtext.parse(app, text) assert_node(doctree, (addnodes.index, [desc, ([desc_signature, ([desc_annotation, ('exception', desc_sig_space)], [desc_addname, "builtins."], [desc_name, "IOError"])], desc_content)])) assert_node(doctree[1], desc, desctype="exception", domain="py", objtype="exception", no_index=False) def test_pydata_signature(app): text = (".. py:data:: version\n" " :type: int\n" " :value: 1\n") doctree = restructuredtext.parse(app, text) assert_node(doctree, (addnodes.index, [desc, ([desc_signature, ([desc_name, "version"], [desc_annotation, ([desc_sig_punctuation, ':'], desc_sig_space, [pending_xref, "int"])], [desc_annotation, ( desc_sig_space, [desc_sig_punctuation, '='], desc_sig_space, "1")], )], desc_content)])) assert_node(doctree[1], addnodes.desc, desctype="data", domain="py", objtype="data", no_index=False) def test_pydata_signature_old(app): text = (".. py:data:: version\n" " :annotation: = 1\n") doctree = restructuredtext.parse(app, text) assert_node(doctree, (addnodes.index, [desc, ([desc_signature, ([desc_name, "version"], [desc_annotation, (desc_sig_space, "= 1")])], desc_content)])) assert_node(doctree[1], addnodes.desc, desctype="data", domain="py", objtype="data", no_index=False) def test_pydata_with_union_type_operator(app): text = (".. py:data:: version\n" " :type: int | str") doctree = restructuredtext.parse(app, text) assert_node(doctree[1][0], ([desc_name, "version"], [desc_annotation, ([desc_sig_punctuation, ':'], desc_sig_space, [pending_xref, "int"], desc_sig_space, [desc_sig_punctuation, "|"], desc_sig_space, [pending_xref, "str"])])) def test_pyobject_prefix(app): text = (".. py:class:: Foo\n" "\n" " .. py:method:: Foo.say\n" " .. py:method:: FooBar.say") doctree = restructuredtext.parse(app, text) assert_node(doctree, (addnodes.index, [desc, ([desc_signature, ([desc_annotation, ('class', desc_sig_space)], [desc_name, "Foo"])], [desc_content, (addnodes.index, desc, addnodes.index, desc)])])) assert doctree[1][1][1].astext().strip() == 'say()' # prefix is stripped assert doctree[1][1][3].astext().strip() == 'FooBar.say()' # not stripped def test_pydata(app): text = (".. py:module:: example\n" ".. py:data:: var\n" " :type: int\n") domain = app.env.get_domain('py') doctree = restructuredtext.parse(app, text) assert_node(doctree, (addnodes.index, addnodes.index, nodes.target, [desc, ([desc_signature, ([desc_addname, "example."], [desc_name, "var"], [desc_annotation, ([desc_sig_punctuation, ':'], desc_sig_space, [pending_xref, "int"])])], [desc_content, ()])])) assert_node(doctree[3][0][2][2], pending_xref, **{"py:module": "example"}) assert 'example.var' in domain.objects assert domain.objects['example.var'] == ('index', 'example.var', 'data', False) def test_pyfunction(app): text = (".. py:function:: func1\n" ".. py:module:: example\n" ".. py:function:: func2\n" " :async:\n") domain = app.env.get_domain('py') doctree = restructuredtext.parse(app, text) assert_node(doctree, (addnodes.index, [desc, ([desc_signature, ([desc_name, "func1"], [desc_parameterlist, ()])], [desc_content, ()])], addnodes.index, addnodes.index, nodes.target, [desc, ([desc_signature, ([desc_annotation, ([desc_sig_keyword, 'async'], desc_sig_space)], [desc_addname, "example."], [desc_name, "func2"], [desc_parameterlist, ()])], [desc_content, ()])])) assert_node(doctree[0], addnodes.index, entries=[('pair', 'built-in function; func1()', 'func1', '', None)]) assert_node(doctree[2], addnodes.index, entries=[('pair', 'module; example', 'module-example', '', None)]) assert_node(doctree[3], addnodes.index, entries=[('single', 'func2() (in module example)', 'example.func2', '', None)]) assert 'func1' in domain.objects assert domain.objects['func1'] == ('index', 'func1', 'function', False) assert 'example.func2' in domain.objects assert domain.objects['example.func2'] == ('index', 'example.func2', 'function', False) def test_pyclass_options(app): text = (".. py:class:: Class1\n" ".. py:class:: Class2\n" " :final:\n") domain = app.env.get_domain('py') doctree = restructuredtext.parse(app, text) assert_node(doctree, (addnodes.index, [desc, ([desc_signature, ([desc_annotation, ("class", desc_sig_space)], [desc_name, "Class1"])], [desc_content, ()])], addnodes.index, [desc, ([desc_signature, ([desc_annotation, ("final", desc_sig_space, "class", desc_sig_space)], [desc_name, "Class2"])], [desc_content, ()])])) # class assert_node(doctree[0], addnodes.index, entries=[('single', 'Class1 (built-in class)', 'Class1', '', None)]) assert 'Class1' in domain.objects assert domain.objects['Class1'] == ('index', 'Class1', 'class', False) # :final: assert_node(doctree[2], addnodes.index, entries=[('single', 'Class2 (built-in class)', 'Class2', '', None)]) assert 'Class2' in domain.objects assert domain.objects['Class2'] == ('index', 'Class2', 'class', False) def test_pymethod_options(app): text = (".. py:class:: Class\n" "\n" " .. py:method:: meth1\n" " .. py:method:: meth2\n" " :classmethod:\n" " .. py:method:: meth3\n" " :staticmethod:\n" " .. py:method:: meth4\n" " :async:\n" " .. py:method:: meth5\n" " :abstractmethod:\n" " .. py:method:: meth6\n" " :final:\n") domain = app.env.get_domain('py') doctree = restructuredtext.parse(app, text) assert_node(doctree, (addnodes.index, [desc, ([desc_signature, ([desc_annotation, ("class", desc_sig_space)], [desc_name, "Class"])], [desc_content, (addnodes.index, desc, addnodes.index, desc, addnodes.index, desc, addnodes.index, desc, addnodes.index, desc, addnodes.index, desc)])])) # method assert_node(doctree[1][1][0], addnodes.index, entries=[('single', 'meth1() (Class method)', 'Class.meth1', '', None)]) assert_node(doctree[1][1][1], ([desc_signature, ([desc_name, "meth1"], [desc_parameterlist, ()])], [desc_content, ()])) assert 'Class.meth1' in domain.objects assert domain.objects['Class.meth1'] == ('index', 'Class.meth1', 'method', False) # :classmethod: assert_node(doctree[1][1][2], addnodes.index, entries=[('single', 'meth2() (Class class method)', 'Class.meth2', '', None)]) assert_node(doctree[1][1][3], ([desc_signature, ([desc_annotation, ("classmethod", desc_sig_space)], [desc_name, "meth2"], [desc_parameterlist, ()])], [desc_content, ()])) assert 'Class.meth2' in domain.objects assert domain.objects['Class.meth2'] == ('index', 'Class.meth2', 'method', False) # :staticmethod: assert_node(doctree[1][1][4], addnodes.index, entries=[('single', 'meth3() (Class static method)', 'Class.meth3', '', None)]) assert_node(doctree[1][1][5], ([desc_signature, ([desc_annotation, ("static", desc_sig_space)], [desc_name, "meth3"], [desc_parameterlist, ()])], [desc_content, ()])) assert 'Class.meth3' in domain.objects assert domain.objects['Class.meth3'] == ('index', 'Class.meth3', 'method', False) # :async: assert_node(doctree[1][1][6], addnodes.index, entries=[('single', 'meth4() (Class method)', 'Class.meth4', '', None)]) assert_node(doctree[1][1][7], ([desc_signature, ([desc_annotation, ("async", desc_sig_space)], [desc_name, "meth4"], [desc_parameterlist, ()])], [desc_content, ()])) assert 'Class.meth4' in domain.objects assert domain.objects['Class.meth4'] == ('index', 'Class.meth4', 'method', False) # :abstractmethod: assert_node(doctree[1][1][8], addnodes.index, entries=[('single', 'meth5() (Class method)', 'Class.meth5', '', None)]) assert_node(doctree[1][1][9], ([desc_signature, ([desc_annotation, ("abstract", desc_sig_space)], [desc_name, "meth5"], [desc_parameterlist, ()])], [desc_content, ()])) assert 'Class.meth5' in domain.objects assert domain.objects['Class.meth5'] == ('index', 'Class.meth5', 'method', False) # :final: assert_node(doctree[1][1][10], addnodes.index, entries=[('single', 'meth6() (Class method)', 'Class.meth6', '', None)]) assert_node(doctree[1][1][11], ([desc_signature, ([desc_annotation, ("final", desc_sig_space)], [desc_name, "meth6"], [desc_parameterlist, ()])], [desc_content, ()])) assert 'Class.meth6' in domain.objects assert domain.objects['Class.meth6'] == ('index', 'Class.meth6', 'method', False) def test_pyclassmethod(app): text = (".. py:class:: Class\n" "\n" " .. py:classmethod:: meth\n") domain = app.env.get_domain('py') doctree = restructuredtext.parse(app, text) assert_node(doctree, (addnodes.index, [desc, ([desc_signature, ([desc_annotation, ("class", desc_sig_space)], [desc_name, "Class"])], [desc_content, (addnodes.index, desc)])])) assert_node(doctree[1][1][0], addnodes.index, entries=[('single', 'meth() (Class class method)', 'Class.meth', '', None)]) assert_node(doctree[1][1][1], ([desc_signature, ([desc_annotation, ("classmethod", desc_sig_space)], [desc_name, "meth"], [desc_parameterlist, ()])], [desc_content, ()])) assert 'Class.meth' in domain.objects assert domain.objects['Class.meth'] == ('index', 'Class.meth', 'method', False) def test_pystaticmethod(app): text = (".. py:class:: Class\n" "\n" " .. py:staticmethod:: meth\n") domain = app.env.get_domain('py') doctree = restructuredtext.parse(app, text) assert_node(doctree, (addnodes.index, [desc, ([desc_signature, ([desc_annotation, ("class", desc_sig_space)], [desc_name, "Class"])], [desc_content, (addnodes.index, desc)])])) assert_node(doctree[1][1][0], addnodes.index, entries=[('single', 'meth() (Class static method)', 'Class.meth', '', None)]) assert_node(doctree[1][1][1], ([desc_signature, ([desc_annotation, ("static", desc_sig_space)], [desc_name, "meth"], [desc_parameterlist, ()])], [desc_content, ()])) assert 'Class.meth' in domain.objects assert domain.objects['Class.meth'] == ('index', 'Class.meth', 'method', False) def test_pyattribute(app): text = (".. py:class:: Class\n" "\n" " .. py:attribute:: attr\n" " :type: Optional[str]\n" " :value: ''\n") domain = app.env.get_domain('py') doctree = restructuredtext.parse(app, text) assert_node(doctree, (addnodes.index, [desc, ([desc_signature, ([desc_annotation, ("class", desc_sig_space)], [desc_name, "Class"])], [desc_content, (addnodes.index, desc)])])) assert_node(doctree[1][1][0], addnodes.index, entries=[('single', 'attr (Class attribute)', 'Class.attr', '', None)]) assert_node(doctree[1][1][1], ([desc_signature, ([desc_name, "attr"], [desc_annotation, ([desc_sig_punctuation, ':'], desc_sig_space, [pending_xref, "str"], desc_sig_space, [desc_sig_punctuation, "|"], desc_sig_space, [pending_xref, "None"])], [desc_annotation, (desc_sig_space, [desc_sig_punctuation, '='], desc_sig_space, "''")], )], [desc_content, ()])) assert_node(doctree[1][1][1][0][1][2], pending_xref, **{"py:class": "Class"}) assert_node(doctree[1][1][1][0][1][6], pending_xref, **{"py:class": "Class"}) assert 'Class.attr' in domain.objects assert domain.objects['Class.attr'] == ('index', 'Class.attr', 'attribute', False) def test_pyproperty(app): text = (".. py:class:: Class\n" "\n" " .. py:property:: prop1\n" " :abstractmethod:\n" " :type: str\n" "\n" " .. py:property:: prop2\n" " :classmethod:\n" " :type: str\n") domain = app.env.get_domain('py') doctree = restructuredtext.parse(app, text) assert_node(doctree, (addnodes.index, [desc, ([desc_signature, ([desc_annotation, ("class", desc_sig_space)], [desc_name, "Class"])], [desc_content, (addnodes.index, desc, addnodes.index, desc)])])) assert_node(doctree[1][1][0], addnodes.index, entries=[('single', 'prop1 (Class property)', 'Class.prop1', '', None)]) assert_node(doctree[1][1][1], ([desc_signature, ([desc_annotation, ("abstract", desc_sig_space, "property", desc_sig_space)], [desc_name, "prop1"], [desc_annotation, ([desc_sig_punctuation, ':'], desc_sig_space, [pending_xref, "str"])])], [desc_content, ()])) assert_node(doctree[1][1][2], addnodes.index, entries=[('single', 'prop2 (Class property)', 'Class.prop2', '', None)]) assert_node(doctree[1][1][3], ([desc_signature, ([desc_annotation, ("class", desc_sig_space, "property", desc_sig_space)], [desc_name, "prop2"], [desc_annotation, ([desc_sig_punctuation, ':'], desc_sig_space, [pending_xref, "str"])])], [desc_content, ()])) assert 'Class.prop1' in domain.objects assert domain.objects['Class.prop1'] == ('index', 'Class.prop1', 'property', False) assert 'Class.prop2' in domain.objects assert domain.objects['Class.prop2'] == ('index', 'Class.prop2', 'property', False) def test_pydecorator_signature(app): text = ".. py:decorator:: deco" domain = app.env.get_domain('py') doctree = restructuredtext.parse(app, text) assert_node(doctree, (addnodes.index, [desc, ([desc_signature, ([desc_addname, "@"], [desc_name, "deco"])], desc_content)])) assert_node(doctree[1], addnodes.desc, desctype="function", domain="py", objtype="function", no_index=False) assert 'deco' in domain.objects assert domain.objects['deco'] == ('index', 'deco', 'function', False) def test_pydecoratormethod_signature(app): text = ".. py:decoratormethod:: deco" domain = app.env.get_domain('py') doctree = restructuredtext.parse(app, text) assert_node(doctree, (addnodes.index, [desc, ([desc_signature, ([desc_addname, "@"], [desc_name, "deco"])], desc_content)])) assert_node(doctree[1], addnodes.desc, desctype="method", domain="py", objtype="method", no_index=False) assert 'deco' in domain.objects assert domain.objects['deco'] == ('index', 'deco', 'method', False) def test_canonical(app): text = (".. py:class:: io.StringIO\n" " :canonical: _io.StringIO") domain = app.env.get_domain('py') doctree = restructuredtext.parse(app, text) assert_node(doctree, (addnodes.index, [desc, ([desc_signature, ([desc_annotation, ("class", desc_sig_space)], [desc_addname, "io."], [desc_name, "StringIO"])], desc_content)])) assert 'io.StringIO' in domain.objects assert domain.objects['io.StringIO'] == ('index', 'io.StringIO', 'class', False) assert domain.objects['_io.StringIO'] == ('index', 'io.StringIO', 'class', True) def test_canonical_definition_overrides(app, warning): text = (".. py:class:: io.StringIO\n" " :canonical: _io.StringIO\n" ".. py:class:: _io.StringIO\n") restructuredtext.parse(app, text) assert warning.getvalue() == "" domain = app.env.get_domain('py') assert domain.objects['_io.StringIO'] == ('index', 'id0', 'class', False) def test_canonical_definition_skip(app, warning): text = (".. py:class:: _io.StringIO\n" ".. py:class:: io.StringIO\n" " :canonical: _io.StringIO\n") restructuredtext.parse(app, text) assert warning.getvalue() == "" domain = app.env.get_domain('py') assert domain.objects['_io.StringIO'] == ('index', 'io.StringIO', 'class', False) def test_canonical_duplicated(app, warning): text = (".. py:class:: mypackage.StringIO\n" " :canonical: _io.StringIO\n" ".. py:class:: io.StringIO\n" " :canonical: _io.StringIO\n") restructuredtext.parse(app, text) assert warning.getvalue() != "" def test_info_field_list(app): text = (".. py:module:: example\n" ".. py:class:: Class\n" "\n" " :meta blah: this meta-field must not show up in the toc-tree\n" " :param str name: blah blah\n" " :meta another meta field:\n" " :param age: blah blah\n" " :type age: int\n" " :param items: blah blah\n" " :type items: Tuple[str, ...]\n" " :param Dict[str, str] params: blah blah\n") doctree = restructuredtext.parse(app, text) print(doctree) assert_node(doctree, (addnodes.index, addnodes.index, nodes.target, [desc, ([desc_signature, ([desc_annotation, ("class", desc_sig_space)], [desc_addname, "example."], [desc_name, "Class"])], [desc_content, nodes.field_list, nodes.field])])) assert_node(doctree[3][1][0][0], ([nodes.field_name, "Parameters"], [nodes.field_body, nodes.bullet_list, ([nodes.list_item, nodes.paragraph], [nodes.list_item, nodes.paragraph], [nodes.list_item, nodes.paragraph], [nodes.list_item, nodes.paragraph])])) # :param str name: assert_node(doctree[3][1][0][0][1][0][0][0], ([addnodes.literal_strong, "name"], " (", [pending_xref, addnodes.literal_emphasis, "str"], ")", " -- ", "blah blah")) assert_node(doctree[3][1][0][0][1][0][0][0][2], pending_xref, refdomain="py", reftype="class", reftarget="str", **{"py:module": "example", "py:class": "Class"}) # :param age: + :type age: assert_node(doctree[3][1][0][0][1][0][1][0], ([addnodes.literal_strong, "age"], " (", [pending_xref, addnodes.literal_emphasis, "int"], ")", " -- ", "blah blah")) assert_node(doctree[3][1][0][0][1][0][1][0][2], pending_xref, refdomain="py", reftype="class", reftarget="int", **{"py:module": "example", "py:class": "Class"}) # :param items: + :type items: assert_node(doctree[3][1][0][0][1][0][2][0], ([addnodes.literal_strong, "items"], " (", [pending_xref, addnodes.literal_emphasis, "Tuple"], [addnodes.literal_emphasis, "["], [pending_xref, addnodes.literal_emphasis, "str"], [addnodes.literal_emphasis, ", "], [addnodes.literal_emphasis, "..."], [addnodes.literal_emphasis, "]"], ")", " -- ", "blah blah")) assert_node(doctree[3][1][0][0][1][0][2][0][2], pending_xref, refdomain="py", reftype="class", reftarget="Tuple", **{"py:module": "example", "py:class": "Class"}) assert_node(doctree[3][1][0][0][1][0][2][0][4], pending_xref, refdomain="py", reftype="class", reftarget="str", **{"py:module": "example", "py:class": "Class"}) # :param Dict[str, str] params: assert_node(doctree[3][1][0][0][1][0][3][0], ([addnodes.literal_strong, "params"], " (", [pending_xref, addnodes.literal_emphasis, "Dict"], [addnodes.literal_emphasis, "["], [pending_xref, addnodes.literal_emphasis, "str"], [addnodes.literal_emphasis, ", "], [pending_xref, addnodes.literal_emphasis, "str"], [addnodes.literal_emphasis, "]"], ")", " -- ", "blah blah")) assert_node(doctree[3][1][0][0][1][0][3][0][2], pending_xref, refdomain="py", reftype="class", reftarget="Dict", **{"py:module": "example", "py:class": "Class"}) assert_node(doctree[3][1][0][0][1][0][3][0][4], pending_xref, refdomain="py", reftype="class", reftarget="str", **{"py:module": "example", "py:class": "Class"}) assert_node(doctree[3][1][0][0][1][0][3][0][6], pending_xref, refdomain="py", reftype="class", reftarget="str", **{"py:module": "example", "py:class": "Class"}) def test_info_field_list_piped_type(app): text = (".. py:module:: example\n" ".. py:class:: Class\n" "\n" " :param age: blah blah\n" " :type age: int | str\n") doctree = restructuredtext.parse(app, text) assert_node(doctree, (addnodes.index, addnodes.index, nodes.target, [desc, ([desc_signature, ([desc_annotation, ("class", desc_sig_space)], [desc_addname, "example."], [desc_name, "Class"])], [desc_content, nodes.field_list, nodes.field, (nodes.field_name, nodes.field_body)])])) assert_node(doctree[3][1][0][0][1], ([nodes.paragraph, ([addnodes.literal_strong, "age"], " (", [pending_xref, addnodes.literal_emphasis, "int"], [addnodes.literal_emphasis, " | "], [pending_xref, addnodes.literal_emphasis, "str"], ")", " -- ", "blah blah")],)) assert_node(doctree[3][1][0][0][1][0][2], pending_xref, refdomain="py", reftype="class", reftarget="int", **{"py:module": "example", "py:class": "Class"}) assert_node(doctree[3][1][0][0][1][0][4], pending_xref, refdomain="py", reftype="class", reftarget="str", **{"py:module": "example", "py:class": "Class"}) def test_info_field_list_Literal(app): text = (".. py:module:: example\n" ".. py:class:: Class\n" "\n" " :param age: blah blah\n" " :type age: Literal['foo', 'bar', 'baz']\n") doctree = restructuredtext.parse(app, text) assert_node(doctree, (addnodes.index, addnodes.index, nodes.target, [desc, ([desc_signature, ([desc_annotation, ("class", desc_sig_space)], [desc_addname, "example."], [desc_name, "Class"])], [desc_content, nodes.field_list, nodes.field, (nodes.field_name, nodes.field_body)])])) assert_node(doctree[3][1][0][0][1], ([nodes.paragraph, ([addnodes.literal_strong, "age"], " (", [pending_xref, addnodes.literal_emphasis, "Literal"], [addnodes.literal_emphasis, "["], [addnodes.literal_emphasis, "'foo'"], [addnodes.literal_emphasis, ", "], [addnodes.literal_emphasis, "'bar'"], [addnodes.literal_emphasis, ", "], [addnodes.literal_emphasis, "'baz'"], [addnodes.literal_emphasis, "]"], ")", " -- ", "blah blah")],)) assert_node(doctree[3][1][0][0][1][0][2], pending_xref, refdomain="py", reftype="class", reftarget="Literal", **{"py:module": "example", "py:class": "Class"}) def test_info_field_list_var(app): text = (".. py:class:: Class\n" "\n" " :var int attr: blah blah\n") doctree = restructuredtext.parse(app, text) assert_node(doctree, (addnodes.index, [desc, (desc_signature, [desc_content, nodes.field_list, nodes.field])])) assert_node(doctree[1][1][0][0], ([nodes.field_name, "Variables"], [nodes.field_body, nodes.paragraph])) # :var int attr: assert_node(doctree[1][1][0][0][1][0], ([addnodes.literal_strong, "attr"], " (", [pending_xref, addnodes.literal_emphasis, "int"], ")", " -- ", "blah blah")) assert_node(doctree[1][1][0][0][1][0][2], pending_xref, refdomain="py", reftype="class", reftarget="int", **{"py:class": "Class"}) def test_info_field_list_napoleon_deliminator_of(app): text = (".. py:module:: example\n" ".. py:class:: Class\n" "\n" " :param list_str_var: example description.\n" " :type list_str_var: list of str\n" " :param tuple_int_var: example description.\n" " :type tuple_int_var: tuple of tuple of int\n" ) doctree = restructuredtext.parse(app, text) # :param list of str list_str_var: assert_node(doctree[3][1][0][0][1][0][0][0], ([addnodes.literal_strong, "list_str_var"], " (", [pending_xref, addnodes.literal_emphasis, "list"], [addnodes.literal_emphasis, " of "], [pending_xref, addnodes.literal_emphasis, "str"], ")", " -- ", "example description.")) # :param tuple of tuple of int tuple_int_var: assert_node(doctree[3][1][0][0][1][0][1][0], ([addnodes.literal_strong, "tuple_int_var"], " (", [pending_xref, addnodes.literal_emphasis, "tuple"], [addnodes.literal_emphasis, " of "], [pending_xref, addnodes.literal_emphasis, "tuple"], [addnodes.literal_emphasis, " of "], [pending_xref, addnodes.literal_emphasis, "int"], ")", " -- ", "example description.")) def test_info_field_list_napoleon_deliminator_or(app): text = (".. py:module:: example\n" ".. py:class:: Class\n" "\n" " :param bool_str_var: example description.\n" " :type bool_str_var: bool or str\n" " :param str_float_int_var: example description.\n" " :type str_float_int_var: str or float or int\n" ) doctree = restructuredtext.parse(app, text) # :param bool or str bool_str_var: assert_node(doctree[3][1][0][0][1][0][0][0], ([addnodes.literal_strong, "bool_str_var"], " (", [pending_xref, addnodes.literal_emphasis, "bool"], [addnodes.literal_emphasis, " or "], [pending_xref, addnodes.literal_emphasis, "str"], ")", " -- ", "example description.")) # :param str or float or int str_float_int_var: assert_node(doctree[3][1][0][0][1][0][1][0], ([addnodes.literal_strong, "str_float_int_var"], " (", [pending_xref, addnodes.literal_emphasis, "str"], [addnodes.literal_emphasis, " or "], [pending_xref, addnodes.literal_emphasis, "float"], [addnodes.literal_emphasis, " or "], [pending_xref, addnodes.literal_emphasis, "int"], ")", " -- ", "example description.")) def test_type_field(app): text = (".. py:data:: var1\n" " :type: .int\n" ".. py:data:: var2\n" " :type: ~builtins.int\n" ".. py:data:: var3\n" " :type: typing.Optional[typing.Tuple[int, typing.Any]]\n") doctree = restructuredtext.parse(app, text) assert_node(doctree, (addnodes.index, [desc, ([desc_signature, ([desc_name, "var1"], [desc_annotation, ([desc_sig_punctuation, ':'], desc_sig_space, [pending_xref, "int"])])], [desc_content, ()])], addnodes.index, [desc, ([desc_signature, ([desc_name, "var2"], [desc_annotation, ([desc_sig_punctuation, ':'], desc_sig_space, [pending_xref, "int"])])], [desc_content, ()])], addnodes.index, [desc, ([desc_signature, ([desc_name, "var3"], [desc_annotation, ([desc_sig_punctuation, ":"], desc_sig_space, [pending_xref, "Optional"], [desc_sig_punctuation, "["], [pending_xref, "Tuple"], [desc_sig_punctuation, "["], [pending_xref, "int"], [desc_sig_punctuation, ","], desc_sig_space, [pending_xref, "Any"], [desc_sig_punctuation, "]"], [desc_sig_punctuation, "]"])])], [desc_content, ()])])) assert_node(doctree[1][0][1][2], pending_xref, reftarget='int', refspecific=True) assert_node(doctree[3][0][1][2], pending_xref, reftarget='builtins.int', refspecific=False) assert_node(doctree[5][0][1][2], pending_xref, reftarget='typing.Optional', refspecific=False) assert_node(doctree[5][0][1][4], pending_xref, reftarget='typing.Tuple', refspecific=False) assert_node(doctree[5][0][1][6], pending_xref, reftarget='int', refspecific=False) assert_node(doctree[5][0][1][9], pending_xref, reftarget='typing.Any', refspecific=False) @pytest.mark.sphinx(freshenv=True) def test_module_index(app): text = (".. py:module:: docutils\n" ".. py:module:: sphinx\n" ".. py:module:: sphinx.config\n" ".. py:module:: sphinx.builders\n" ".. py:module:: sphinx.builders.html\n" ".. py:module:: sphinx_intl\n") restructuredtext.parse(app, text) index = PythonModuleIndex(app.env.get_domain('py')) assert index.generate() == ( [('d', [IndexEntry('docutils', 0, 'index', 'module-docutils', '', '', '')]), ('s', [IndexEntry('sphinx', 1, 'index', 'module-sphinx', '', '', ''), IndexEntry('sphinx.builders', 2, 'index', 'module-sphinx.builders', '', '', ''), IndexEntry('sphinx.builders.html', 2, 'index', 'module-sphinx.builders.html', '', '', ''), IndexEntry('sphinx.config', 2, 'index', 'module-sphinx.config', '', '', ''), IndexEntry('sphinx_intl', 0, 'index', 'module-sphinx_intl', '', '', '')])], False, ) @pytest.mark.sphinx(freshenv=True) def test_module_index_submodule(app): text = ".. py:module:: sphinx.config\n" restructuredtext.parse(app, text) index = PythonModuleIndex(app.env.get_domain('py')) assert index.generate() == ( [('s', [IndexEntry('sphinx', 1, '', '', '', '', ''), IndexEntry('sphinx.config', 2, 'index', 'module-sphinx.config', '', '', '')])], False, ) @pytest.mark.sphinx(freshenv=True) def test_module_index_not_collapsed(app): text = (".. py:module:: docutils\n" ".. py:module:: sphinx\n") restructuredtext.parse(app, text) index = PythonModuleIndex(app.env.get_domain('py')) assert index.generate() == ( [('d', [IndexEntry('docutils', 0, 'index', 'module-docutils', '', '', '')]), ('s', [IndexEntry('sphinx', 0, 'index', 'module-sphinx', '', '', '')])], True, ) @pytest.mark.sphinx(freshenv=True, confoverrides={'modindex_common_prefix': ['sphinx.']}) def test_modindex_common_prefix(app): text = (".. py:module:: docutils\n" ".. py:module:: sphinx\n" ".. py:module:: sphinx.config\n" ".. py:module:: sphinx.builders\n" ".. py:module:: sphinx.builders.html\n" ".. py:module:: sphinx_intl\n") restructuredtext.parse(app, text) index = PythonModuleIndex(app.env.get_domain('py')) assert index.generate() == ( [('b', [IndexEntry('sphinx.builders', 1, 'index', 'module-sphinx.builders', '', '', ''), IndexEntry('sphinx.builders.html', 2, 'index', 'module-sphinx.builders.html', '', '', '')]), ('c', [IndexEntry('sphinx.config', 0, 'index', 'module-sphinx.config', '', '', '')]), ('d', [IndexEntry('docutils', 0, 'index', 'module-docutils', '', '', '')]), ('s', [IndexEntry('sphinx', 0, 'index', 'module-sphinx', '', '', ''), IndexEntry('sphinx_intl', 0, 'index', 'module-sphinx_intl', '', '', '')])], True, ) def test_no_index_entry(app): text = (".. py:function:: f()\n" ".. py:function:: g()\n" " :no-index-entry:\n") doctree = restructuredtext.parse(app, text) assert_node(doctree, (addnodes.index, desc, addnodes.index, desc)) assert_node(doctree[0], addnodes.index, entries=[('pair', 'built-in function; f()', 'f', '', None)]) assert_node(doctree[2], addnodes.index, entries=[]) text = (".. py:class:: f\n" ".. py:class:: g\n" " :no-index-entry:\n") doctree = restructuredtext.parse(app, text) assert_node(doctree, (addnodes.index, desc, addnodes.index, desc)) assert_node(doctree[0], addnodes.index, entries=[('single', 'f (built-in class)', 'f', '', None)]) assert_node(doctree[2], addnodes.index, entries=[]) @pytest.mark.sphinx('html', testroot='domain-py-python_use_unqualified_type_names') def test_python_python_use_unqualified_type_names(app, status, warning): app.build() content = (app.outdir / 'index.html').read_text(encoding='utf8') assert ('' 'Name' in content) assert 'foo.Age' in content assert ('

name (Name) – blah blah

' in content) assert '

age (foo.Age) – blah blah

' in content @pytest.mark.sphinx('html', testroot='domain-py-python_use_unqualified_type_names', confoverrides={'python_use_unqualified_type_names': False}) def test_python_python_use_unqualified_type_names_disabled(app, status, warning): app.build() content = (app.outdir / 'index.html').read_text(encoding='utf8') assert ('' 'foo.Name' in content) assert 'foo.Age' in content assert ('

name (foo.Name) – blah blah

' in content) assert '

age (foo.Age) – blah blah

' in content @pytest.mark.sphinx('dummy', testroot='domain-py-xref-warning') def test_warn_missing_reference(app, status, warning): app.build() assert "index.rst:6: WARNING: undefined label: 'no-label'" in warning.getvalue() assert ("index.rst:6: WARNING: Failed to create a cross reference. " "A title or caption not found: 'existing-label'") in warning.getvalue() @pytest.mark.sphinx(confoverrides={'nitpicky': True}) @pytest.mark.parametrize('include_options', [True, False]) def test_signature_line_number(app, include_options): text = (".. py:function:: foo(bar : string)\n" + (" :no-index-entry:\n" if include_options else "")) doc = restructuredtext.parse(app, text) xrefs = list(doc.findall(condition=addnodes.pending_xref)) assert len(xrefs) == 1 source, line = docutils.utils.get_source_line(xrefs[0]) assert 'index.rst' in source assert line == 1 @pytest.mark.sphinx('html', confoverrides={ 'python_maximum_signature_line_length': len("hello(name: str) -> str"), }) def test_pyfunction_signature_with_python_maximum_signature_line_length_equal(app): text = ".. py:function:: hello(name: str) -> str" doctree = restructuredtext.parse(app, text) assert_node(doctree, ( addnodes.index, [desc, ( [desc_signature, ( [desc_name, "hello"], desc_parameterlist, [desc_returns, pending_xref, "str"], )], desc_content, )], )) assert_node(doctree[1], addnodes.desc, desctype="function", domain="py", objtype="function", no_index=False) assert_node(doctree[1][0][1], [desc_parameterlist, desc_parameter, ( [desc_sig_name, "name"], [desc_sig_punctuation, ":"], desc_sig_space, [nodes.inline, pending_xref, "str"], )]) assert_node(doctree[1][0][1], desc_parameterlist, multi_line_parameter_list=False) @pytest.mark.sphinx('html', confoverrides={ 'python_maximum_signature_line_length': len("hello(name: str) -> str"), }) def test_pyfunction_signature_with_python_maximum_signature_line_length_force_single(app): text = (".. py:function:: hello(names: str) -> str\n" " :single-line-parameter-list:") doctree = restructuredtext.parse(app, text) assert_node(doctree, ( addnodes.index, [desc, ( [desc_signature, ( [desc_name, "hello"], desc_parameterlist, [desc_returns, pending_xref, "str"], )], desc_content, )], )) assert_node(doctree[1], addnodes.desc, desctype="function", domain="py", objtype="function", no_index=False) assert_node(doctree[1][0][1], [desc_parameterlist, desc_parameter, ( [desc_sig_name, "names"], [desc_sig_punctuation, ":"], desc_sig_space, [nodes.inline, pending_xref, "str"], )]) assert_node(doctree[1][0][1], desc_parameterlist, multi_line_parameter_list=False) @pytest.mark.sphinx('html', confoverrides={ 'python_maximum_signature_line_length': len("hello(name: str) -> str"), }) def test_pyfunction_signature_with_python_maximum_signature_line_length_break(app): text = ".. py:function:: hello(names: str) -> str" doctree = restructuredtext.parse(app, text) assert_node(doctree, ( addnodes.index, [desc, ( [desc_signature, ( [desc_name, "hello"], desc_parameterlist, [desc_returns, pending_xref, "str"], )], desc_content, )], )) assert_node(doctree[1], addnodes.desc, desctype="function", domain="py", objtype="function", no_index=False) assert_node(doctree[1][0][1], [desc_parameterlist, desc_parameter, ( [desc_sig_name, "names"], [desc_sig_punctuation, ":"], desc_sig_space, [nodes.inline, pending_xref, "str"], )]) assert_node(doctree[1][0][1], desc_parameterlist, multi_line_parameter_list=True) @pytest.mark.sphinx('html', confoverrides={ 'maximum_signature_line_length': len("hello(name: str) -> str"), }) def test_pyfunction_signature_with_maximum_signature_line_length_equal(app): text = ".. py:function:: hello(name: str) -> str" doctree = restructuredtext.parse(app, text) assert_node(doctree, ( addnodes.index, [desc, ( [desc_signature, ( [desc_name, "hello"], desc_parameterlist, [desc_returns, pending_xref, "str"], )], desc_content, )], )) assert_node(doctree[1], addnodes.desc, desctype="function", domain="py", objtype="function", no_index=False) assert_node(doctree[1][0][1], [desc_parameterlist, desc_parameter, ( [desc_sig_name, "name"], [desc_sig_punctuation, ":"], desc_sig_space, [nodes.inline, pending_xref, "str"], )]) assert_node(doctree[1][0][1], desc_parameterlist, multi_line_parameter_list=False) @pytest.mark.sphinx('html', confoverrides={ 'maximum_signature_line_length': len("hello(name: str) -> str"), }) def test_pyfunction_signature_with_maximum_signature_line_length_force_single(app): text = (".. py:function:: hello(names: str) -> str\n" " :single-line-parameter-list:") doctree = restructuredtext.parse(app, text) assert_node(doctree, ( addnodes.index, [desc, ( [desc_signature, ( [desc_name, "hello"], desc_parameterlist, [desc_returns, pending_xref, "str"], )], desc_content, )], )) assert_node(doctree[1], addnodes.desc, desctype="function", domain="py", objtype="function", no_index=False) assert_node(doctree[1][0][1], [desc_parameterlist, desc_parameter, ( [desc_sig_name, "names"], [desc_sig_punctuation, ":"], desc_sig_space, [nodes.inline, pending_xref, "str"], )]) assert_node(doctree[1][0][1], desc_parameterlist, multi_line_parameter_list=False) @pytest.mark.sphinx('html', confoverrides={ 'maximum_signature_line_length': len("hello(name: str) -> str"), }) def test_pyfunction_signature_with_maximum_signature_line_length_break(app): text = ".. py:function:: hello(names: str) -> str" doctree = restructuredtext.parse(app, text) assert_node(doctree, ( addnodes.index, [desc, ( [desc_signature, ( [desc_name, "hello"], desc_parameterlist, [desc_returns, pending_xref, "str"], )], desc_content, )], )) assert_node(doctree[1], addnodes.desc, desctype="function", domain="py", objtype="function", no_index=False) assert_node(doctree[1][0][1], [desc_parameterlist, desc_parameter, ( [desc_sig_name, "names"], [desc_sig_punctuation, ":"], desc_sig_space, [nodes.inline, pending_xref, "str"], )]) assert_node(doctree[1][0][1], desc_parameterlist, multi_line_parameter_list=True) @pytest.mark.sphinx( 'html', confoverrides={ 'python_maximum_signature_line_length': len("hello(name: str) -> str"), 'maximum_signature_line_length': 1, }, ) def test_python_maximum_signature_line_length_overrides_global(app): text = ".. py:function:: hello(name: str) -> str" doctree = restructuredtext.parse(app, text) expected_doctree = (addnodes.index, [desc, ([desc_signature, ([desc_name, "hello"], desc_parameterlist, [desc_returns, pending_xref, "str"])], desc_content)]) assert_node(doctree, expected_doctree) assert_node(doctree[1], addnodes.desc, desctype="function", domain="py", objtype="function", no_index=False) signame_node = [desc_sig_name, "name"] expected_sig = [desc_parameterlist, desc_parameter, (signame_node, [desc_sig_punctuation, ":"], desc_sig_space, [nodes.inline, pending_xref, "str"])] assert_node(doctree[1][0][1], expected_sig) assert_node(doctree[1][0][1], desc_parameterlist, multi_line_parameter_list=False) @pytest.mark.sphinx( 'html', testroot='domain-py-python_maximum_signature_line_length', ) def test_domain_py_python_maximum_signature_line_length_in_html(app, status, warning): app.build() content = (app.outdir / 'index.html').read_text(encoding='utf8') expected_parameter_list_hello = """\
\ \ name\ :\ \ str\ ,\
) \ \ \ str\ \ \ \ """ assert expected_parameter_list_hello in content param_line_fmt = '
{}
\n' param_name_fmt = ( '{}' ) optional_fmt = '{}' expected_a = param_line_fmt.format( optional_fmt.format("[") + param_name_fmt.format("a") + "," + optional_fmt.format("["), ) assert expected_a in content expected_b = param_line_fmt.format( param_name_fmt.format("b") + "," + optional_fmt.format("]") + optional_fmt.format("]"), ) assert expected_b in content expected_c = param_line_fmt.format(param_name_fmt.format("c") + ",") assert expected_c in content expected_d = param_line_fmt.format(param_name_fmt.format("d") + optional_fmt.format("[") + ",") assert expected_d in content expected_e = param_line_fmt.format(param_name_fmt.format("e") + ",") assert expected_e in content expected_f = param_line_fmt.format(param_name_fmt.format("f") + "," + optional_fmt.format("]")) assert expected_f in content expected_parameter_list_foo = """\
{}{}{}{}{}{}
)\ \ \ """.format(expected_a, expected_b, expected_c, expected_d, expected_e, expected_f) assert expected_parameter_list_foo in content @pytest.mark.sphinx( 'text', testroot='domain-py-python_maximum_signature_line_length', ) def test_domain_py_python_maximum_signature_line_length_in_text(app, status, warning): app.build() content = (app.outdir / 'index.txt').read_text(encoding='utf8') param_line_fmt = STDINDENT * " " + "{}\n" expected_parameter_list_hello = "(\n{}) -> str".format(param_line_fmt.format("name: str,")) assert expected_parameter_list_hello in content expected_a = param_line_fmt.format("[a,[") assert expected_a in content expected_b = param_line_fmt.format("b,]]") assert expected_b in content expected_c = param_line_fmt.format("c,") assert expected_c in content expected_d = param_line_fmt.format("d[,") assert expected_d in content expected_e = param_line_fmt.format("e,") assert expected_e in content expected_f = param_line_fmt.format("f,]") assert expected_f in content expected_parameter_list_foo = "(\n{}{}{}{}{}{})".format( expected_a, expected_b, expected_c, expected_d, expected_e, expected_f, ) assert expected_parameter_list_foo in content def test_module_content_line_number(app): text = (".. py:module:: foo\n" + "\n" + " Some link here: :ref:`abc`\n") doc = restructuredtext.parse(app, text) xrefs = list(doc.findall(condition=addnodes.pending_xref)) assert len(xrefs) == 1 source, line = docutils.utils.get_source_line(xrefs[0]) assert 'index.rst' in source assert line == 3 @pytest.mark.sphinx(freshenv=True, confoverrides={'python_display_short_literal_types': True}) def test_short_literal_types(app): text = """\ .. py:function:: literal_ints(x: Literal[1, 2, 3] = 1) -> None .. py:function:: literal_union(x: Union[Literal["a"], Literal["b"], Literal["c"]]) -> None """ doctree = restructuredtext.parse(app, text) assert_node(doctree, ( addnodes.index, [desc, ( [desc_signature, ( [desc_name, 'literal_ints'], [desc_parameterlist, ( [desc_parameter, ( [desc_sig_name, 'x'], [desc_sig_punctuation, ':'], desc_sig_space, [desc_sig_name, ( [desc_sig_literal_number, '1'], desc_sig_space, [desc_sig_punctuation, '|'], desc_sig_space, [desc_sig_literal_number, '2'], desc_sig_space, [desc_sig_punctuation, '|'], desc_sig_space, [desc_sig_literal_number, '3'], )], desc_sig_space, [desc_sig_operator, '='], desc_sig_space, [nodes.inline, '1'], )], )], [desc_returns, pending_xref, 'None'], )], [desc_content, ()], )], addnodes.index, [desc, ( [desc_signature, ( [desc_name, 'literal_union'], [desc_parameterlist, ( [desc_parameter, ( [desc_sig_name, 'x'], [desc_sig_punctuation, ':'], desc_sig_space, [desc_sig_name, ( [desc_sig_literal_string, "'a'"], desc_sig_space, [desc_sig_punctuation, '|'], desc_sig_space, [desc_sig_literal_string, "'b'"], desc_sig_space, [desc_sig_punctuation, '|'], desc_sig_space, [desc_sig_literal_string, "'c'"], )], )], )], [desc_returns, pending_xref, 'None'], )], [desc_content, ()], )], )) def test_function_pep_695(app): text = """.. py:function:: func[\ S,\ T: int,\ U: (int, str),\ R: int | int,\ A: int | Annotated[int, ctype("char")],\ *V,\ **P\ ] """ doctree = restructuredtext.parse(app, text) assert_node(doctree, ( addnodes.index, [desc, ( [desc_signature, ( [desc_name, 'func'], [desc_type_parameter_list, ( [desc_type_parameter, ([desc_sig_name, 'S'])], [desc_type_parameter, ( [desc_sig_name, 'T'], [desc_sig_punctuation, ':'], desc_sig_space, [desc_sig_name, ([pending_xref, 'int'])], )], [desc_type_parameter, ( [desc_sig_name, 'U'], [desc_sig_punctuation, ':'], desc_sig_space, [desc_sig_punctuation, '('], [desc_sig_name, ( [pending_xref, 'int'], [desc_sig_punctuation, ','], desc_sig_space, [pending_xref, 'str'], )], [desc_sig_punctuation, ')'], )], [desc_type_parameter, ( [desc_sig_name, 'R'], [desc_sig_punctuation, ':'], desc_sig_space, [desc_sig_name, ( [pending_xref, 'int'], desc_sig_space, [desc_sig_punctuation, '|'], desc_sig_space, [pending_xref, 'int'], )], )], [desc_type_parameter, ( [desc_sig_name, 'A'], [desc_sig_punctuation, ':'], desc_sig_space, [desc_sig_name, ([pending_xref, 'int | Annotated[int, ctype("char")]'])], )], [desc_type_parameter, ( [desc_sig_operator, '*'], [desc_sig_name, 'V'], )], [desc_type_parameter, ( [desc_sig_operator, '**'], [desc_sig_name, 'P'], )], )], [desc_parameterlist, ()], )], [desc_content, ()], )], )) def test_class_def_pep_695(app): # Non-concrete unbound generics are allowed at runtime but type checkers # should fail (https://peps.python.org/pep-0695/#type-parameter-scopes) text = """.. py:class:: Class[S: Sequence[T], T, KT, VT](Dict[KT, VT])""" doctree = restructuredtext.parse(app, text) assert_node(doctree, ( addnodes.index, [desc, ( [desc_signature, ( [desc_annotation, ('class', desc_sig_space)], [desc_name, 'Class'], [desc_type_parameter_list, ( [desc_type_parameter, ( [desc_sig_name, 'S'], [desc_sig_punctuation, ':'], desc_sig_space, [desc_sig_name, ( [pending_xref, 'Sequence'], [desc_sig_punctuation, '['], [pending_xref, 'T'], [desc_sig_punctuation, ']'], )], )], [desc_type_parameter, ([desc_sig_name, 'T'])], [desc_type_parameter, ([desc_sig_name, 'KT'])], [desc_type_parameter, ([desc_sig_name, 'VT'])], )], [desc_parameterlist, ([desc_parameter, 'Dict[KT, VT]'])], )], [desc_content, ()], )], )) def test_class_def_pep_696(app): # test default values for type variables without using PEP 696 AST parser text = """.. py:class:: Class[\ T, KT, VT,\ J: int,\ K = list,\ S: str = str,\ L: (T, tuple[T, ...], collections.abc.Iterable[T]) = set[T],\ Q: collections.abc.Mapping[KT, VT] = dict[KT, VT],\ *V = *tuple[*Ts, bool],\ **P = [int, Annotated[int, ValueRange(3, 10), ctype("char")]]\ ](Other[T, KT, VT, J, S, L, Q, *V, **P]) """ doctree = restructuredtext.parse(app, text) assert_node(doctree, ( addnodes.index, [desc, ( [desc_signature, ( [desc_annotation, ('class', desc_sig_space)], [desc_name, 'Class'], [desc_type_parameter_list, ( [desc_type_parameter, ([desc_sig_name, 'T'])], [desc_type_parameter, ([desc_sig_name, 'KT'])], [desc_type_parameter, ([desc_sig_name, 'VT'])], # J: int [desc_type_parameter, ( [desc_sig_name, 'J'], [desc_sig_punctuation, ':'], desc_sig_space, [desc_sig_name, ([pending_xref, 'int'])], )], # K = list [desc_type_parameter, ( [desc_sig_name, 'K'], desc_sig_space, [desc_sig_operator, '='], desc_sig_space, [nodes.inline, 'list'], )], # S: str = str [desc_type_parameter, ( [desc_sig_name, 'S'], [desc_sig_punctuation, ':'], desc_sig_space, [desc_sig_name, ([pending_xref, 'str'])], desc_sig_space, [desc_sig_operator, '='], desc_sig_space, [nodes.inline, 'str'], )], [desc_type_parameter, ( [desc_sig_name, 'L'], [desc_sig_punctuation, ':'], desc_sig_space, [desc_sig_punctuation, '('], [desc_sig_name, ( # T [pending_xref, 'T'], [desc_sig_punctuation, ','], desc_sig_space, # tuple[T, ...] [pending_xref, 'tuple'], [desc_sig_punctuation, '['], [pending_xref, 'T'], [desc_sig_punctuation, ','], desc_sig_space, [desc_sig_punctuation, '...'], [desc_sig_punctuation, ']'], [desc_sig_punctuation, ','], desc_sig_space, # collections.abc.Iterable[T] [pending_xref, 'collections.abc.Iterable'], [desc_sig_punctuation, '['], [pending_xref, 'T'], [desc_sig_punctuation, ']'], )], [desc_sig_punctuation, ')'], desc_sig_space, [desc_sig_operator, '='], desc_sig_space, [nodes.inline, 'set[T]'], )], [desc_type_parameter, ( [desc_sig_name, 'Q'], [desc_sig_punctuation, ':'], desc_sig_space, [desc_sig_name, ( [pending_xref, 'collections.abc.Mapping'], [desc_sig_punctuation, '['], [pending_xref, 'KT'], [desc_sig_punctuation, ','], desc_sig_space, [pending_xref, 'VT'], [desc_sig_punctuation, ']'], )], desc_sig_space, [desc_sig_operator, '='], desc_sig_space, [nodes.inline, 'dict[KT, VT]'], )], [desc_type_parameter, ( [desc_sig_operator, '*'], [desc_sig_name, 'V'], desc_sig_space, [desc_sig_operator, '='], desc_sig_space, [nodes.inline, '*tuple[*Ts, bool]'], )], [desc_type_parameter, ( [desc_sig_operator, '**'], [desc_sig_name, 'P'], desc_sig_space, [desc_sig_operator, '='], desc_sig_space, [nodes.inline, '[int, Annotated[int, ValueRange(3, 10), ctype("char")]]'], )], )], [desc_parameterlist, ( [desc_parameter, 'Other[T, KT, VT, J, S, L, Q, *V, **P]'], )], )], [desc_content, ()], )], )) @pytest.mark.parametrize(('tp_list', 'tptext'), [ ('[T:int]', '[T: int]'), ('[T:*Ts]', '[T: *Ts]'), ('[T:int|(*Ts)]', '[T: int | (*Ts)]'), ('[T:(*Ts)|int]', '[T: (*Ts) | int]'), ('[T:(int|(*Ts))]', '[T: (int | (*Ts))]'), ('[T:((*Ts)|int)]', '[T: ((*Ts) | int)]'), ('[T:Annotated[int,ctype("char")]]', '[T: Annotated[int, ctype("char")]]'), ]) def test_pep_695_and_pep_696_whitespaces_in_bound(app, tp_list, tptext): text = f'.. py:function:: f{tp_list}()' doctree = restructuredtext.parse(app, text) assert doctree.astext() == f'\n\nf{tptext}()\n\n' @pytest.mark.parametrize(('tp_list', 'tptext'), [ ('[T:(int,str)]', '[T: (int, str)]'), ('[T:(int|str,*Ts)]', '[T: (int | str, *Ts)]'), ]) def test_pep_695_and_pep_696_whitespaces_in_constraints(app, tp_list, tptext): text = f'.. py:function:: f{tp_list}()' doctree = restructuredtext.parse(app, text) assert doctree.astext() == f'\n\nf{tptext}()\n\n' @pytest.mark.parametrize(('tp_list', 'tptext'), [ ('[T=int]', '[T = int]'), ('[T:int=int]', '[T: int = int]'), ('[*V=*Ts]', '[*V = *Ts]'), ('[*V=(*Ts)]', '[*V = (*Ts)]'), ('[*V=*tuple[str,...]]', '[*V = *tuple[str, ...]]'), ('[*V=*tuple[*Ts,...]]', '[*V = *tuple[*Ts, ...]]'), ('[*V=*tuple[int,*Ts]]', '[*V = *tuple[int, *Ts]]'), ('[*V=*tuple[*Ts,int]]', '[*V = *tuple[*Ts, int]]'), ('[**P=[int,*Ts]]', '[**P = [int, *Ts]]'), ('[**P=[int, int*3]]', '[**P = [int, int * 3]]'), ('[**P=[int, *Ts*3]]', '[**P = [int, *Ts * 3]]'), ('[**P=[int,A[int,ctype("char")]]]', '[**P = [int, A[int, ctype("char")]]]'), ]) def test_pep_695_and_pep_696_whitespaces_in_default(app, tp_list, tptext): text = f'.. py:function:: f{tp_list}()' doctree = restructuredtext.parse(app, text) assert doctree.astext() == f'\n\nf{tptext}()\n\n'