"""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_annotation,
desc_content,
desc_name,
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
from sphinx.domains.python._annotations import _parse_annotation, _pseudo_parse_arglist
from sphinx.domains.python._object import 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.build(force_all=True)
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_refnode(refnodes[16], False, False, 'typing.Literal', 'obj', domain='py')
assert_refnode(refnodes[17], False, False, 'typing.Literal', 'obj', domain='py')
assert len(refnodes) == 18
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.build(force_all=True)
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.build(force_all=True)
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.build(force_all=True)
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.build(force_all=True)
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))])
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, "]"]))
@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"),
'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'