"""Tests the std domain"""
from unittest import mock
import pytest
from docutils import nodes
from docutils.nodes import definition, definition_list, definition_list_item, term
from sphinx import addnodes
from sphinx.addnodes import (
desc,
desc_addname,
desc_content,
desc_name,
desc_signature,
glossary,
index,
pending_xref,
)
from sphinx.domains.std import StandardDomain
from sphinx.testing import restructuredtext
from sphinx.testing.util import assert_node, etree_parse
def test_process_doc_handle_figure_caption():
env = mock.Mock(domaindata={})
env.app.registry.enumerable_nodes = {}
figure_node = nodes.figure(
'',
nodes.caption('caption text', 'caption text'),
)
document = mock.Mock(
nametypes={'testname': True},
nameids={'testname': 'testid'},
ids={'testid': figure_node},
citation_refs={},
)
document.findall.return_value = []
domain = StandardDomain(env)
if 'testname' in domain.data['labels']:
del domain.data['labels']['testname']
domain.process_doc(env, 'testdoc', document)
assert 'testname' in domain.data['labels']
assert domain.data['labels']['testname'] == (
'testdoc', 'testid', 'caption text')
def test_process_doc_handle_table_title():
env = mock.Mock(domaindata={})
env.app.registry.enumerable_nodes = {}
table_node = nodes.table(
'',
nodes.title('title text', 'title text'),
)
document = mock.Mock(
nametypes={'testname': True},
nameids={'testname': 'testid'},
ids={'testid': table_node},
citation_refs={},
)
document.findall.return_value = []
domain = StandardDomain(env)
if 'testname' in domain.data['labels']:
del domain.data['labels']['testname']
domain.process_doc(env, 'testdoc', document)
assert 'testname' in domain.data['labels']
assert domain.data['labels']['testname'] == (
'testdoc', 'testid', 'title text')
def test_get_full_qualified_name():
env = mock.Mock(domaindata={})
env.app.registry.enumerable_nodes = {}
domain = StandardDomain(env)
# normal references
node = nodes.reference()
assert domain.get_full_qualified_name(node) is None
# simple reference to options
node = nodes.reference(reftype='option', reftarget='-l')
assert domain.get_full_qualified_name(node) is None
# options with std:program context
kwargs = {'std:program': 'ls'}
node = nodes.reference(reftype='option', reftarget='-l', **kwargs)
assert domain.get_full_qualified_name(node) == 'ls.-l'
def test_cmd_option_with_optional_value(app):
text = ".. option:: -j[=N]"
doctree = restructuredtext.parse(app, text)
assert_node(doctree, (index,
[desc, ([desc_signature, ([desc_name, '-j'],
[desc_addname, '[=N]'])],
[desc_content, ()])]))
assert_node(doctree[0], addnodes.index,
entries=[('pair', 'command line option; -j', 'cmdoption-j', '', None)])
objects = list(app.env.get_domain("std").get_objects())
assert ('-j', '-j', 'cmdoption', 'index', 'cmdoption-j', 1) in objects
def test_cmd_option_starting_with_bracket(app):
text = ".. option:: [enable=]PATTERN"
doctree = restructuredtext.parse(app, text)
assert_node(doctree, (index,
[desc, ([desc_signature, ([desc_name, '[enable'],
[desc_addname, '=]PATTERN'])],
[desc_content, ()])]))
objects = list(app.env.get_domain("std").get_objects())
assert ('[enable', '[enable', 'cmdoption', 'index', 'cmdoption-arg-enable', 1) in objects
def test_glossary(app):
text = (".. glossary::\n"
"\n"
" term1\n"
" TERM2\n"
" description\n"
"\n"
" term3 : classifier\n"
" description\n"
" description\n"
"\n"
" term4 : class1 : class2\n"
" description\n")
# doctree
doctree = restructuredtext.parse(app, text)
assert_node(doctree, (
[glossary, definition_list, ([definition_list_item, ([term, ("term1",
index)],
[term, ("TERM2",
index)],
definition)],
[definition_list_item, ([term, ("term3",
index)],
definition)],
[definition_list_item, ([term, ("term4",
index)],
definition)])],
))
assert_node(doctree[0][0][0][0][1],
entries=[("single", "term1", "term-term1", "main", None)])
assert_node(doctree[0][0][0][1][1],
entries=[("single", "TERM2", "term-TERM2", "main", None)])
assert_node(doctree[0][0][0][2],
[definition, nodes.paragraph, "description"])
assert_node(doctree[0][0][1][0][1],
entries=[("single", "term3", "term-term3", "main", "classifier")])
assert_node(doctree[0][0][1][1],
[definition, nodes.paragraph, ("description\n"
"description")])
assert_node(doctree[0][0][2][0][1],
entries=[("single", "term4", "term-term4", "main", "class1")])
assert_node(doctree[0][0][2][1],
[nodes.definition, nodes.paragraph, "description"])
# index
domain = app.env.get_domain("std")
objects = list(domain.get_objects())
assert ("term1", "term1", "term", "index", "term-term1", -1) in objects
assert ("TERM2", "TERM2", "term", "index", "term-TERM2", -1) in objects
assert ("term3", "term3", "term", "index", "term-term3", -1) in objects
assert ("term4", "term4", "term", "index", "term-term4", -1) in objects
# term reference (case sensitive)
refnode = domain.resolve_xref(app.env, 'index', app.builder, 'term', 'term1',
pending_xref(), nodes.paragraph())
assert_node(refnode, nodes.reference, refid="term-term1")
# term reference (case insensitive)
refnode = domain.resolve_xref(app.env, 'index', app.builder, 'term', 'term2',
pending_xref(), nodes.paragraph())
assert_node(refnode, nodes.reference, refid="term-TERM2")
def test_glossary_warning(app, status, warning):
# empty line between terms
text = (".. glossary::\n"
"\n"
" term1\n"
"\n"
" term2\n")
restructuredtext.parse(app, text, "case1")
assert ("case1.rst:4: WARNING: glossary terms must not be separated by empty lines"
in warning.getvalue())
# glossary starts with indented item
text = (".. glossary::\n"
"\n"
" description\n"
" term\n")
restructuredtext.parse(app, text, "case2")
assert ("case2.rst:3: WARNING: glossary term must be preceded by empty line"
in warning.getvalue())
# empty line between terms
text = (".. glossary::\n"
"\n"
" term1\n"
" description\n"
" term2\n")
restructuredtext.parse(app, text, "case3")
assert ("case3.rst:4: WARNING: glossary term must be preceded by empty line"
in warning.getvalue())
# duplicated terms
text = (".. glossary::\n"
"\n"
" term-case4\n"
" term-case4\n")
restructuredtext.parse(app, text, "case4")
assert ("case4.rst:3: WARNING: duplicate term description of term-case4, "
"other instance in case4" in warning.getvalue())
def test_glossary_comment(app):
text = (".. glossary::\n"
"\n"
" term1\n"
" description\n"
" .. term2\n"
" description\n"
" description\n")
doctree = restructuredtext.parse(app, text)
assert_node(doctree, (
[glossary, definition_list, definition_list_item, ([term, ("term1",
index)],
definition)],
))
assert_node(doctree[0][0][0][1],
[nodes.definition, nodes.paragraph, "description"])
def test_glossary_comment2(app):
text = (".. glossary::\n"
"\n"
" term1\n"
" description\n"
"\n"
" .. term2\n"
" term3\n"
" description\n"
" description\n")
doctree = restructuredtext.parse(app, text)
assert_node(doctree, (
[glossary, definition_list, ([definition_list_item, ([term, ("term1",
index)],
definition)],
[definition_list_item, ([term, ("term3",
index)],
definition)])],
))
assert_node(doctree[0][0][0][1],
[nodes.definition, nodes.paragraph, "description"])
assert_node(doctree[0][0][1][1],
[nodes.definition, nodes.paragraph, ("description\n"
"description")])
def test_glossary_sorted(app):
text = (".. glossary::\n"
" :sorted:\n"
"\n"
" term3\n"
" description\n"
"\n"
" term2\n"
" term1\n"
" description\n")
doctree = restructuredtext.parse(app, text)
assert_node(doctree, (
[glossary, definition_list, ([definition_list_item, ([term, ("term2",
index)],
[term, ("term1",
index)],
definition)],
[definition_list_item, ([term, ("term3",
index)],
definition)])],
))
assert_node(doctree[0][0][0][2],
[nodes.definition, nodes.paragraph, "description"])
assert_node(doctree[0][0][1][1],
[nodes.definition, nodes.paragraph, "description"])
def test_glossary_alphanumeric(app):
text = (".. glossary::\n"
"\n"
" 1\n"
" /\n")
restructuredtext.parse(app, text)
objects = list(app.env.get_domain("std").get_objects())
assert ("1", "1", "term", "index", "term-1", -1) in objects
assert ("/", "/", "term", "index", "term-0", -1) in objects
def test_glossary_conflicted_labels(app):
text = (".. _term-foo:\n"
".. glossary::\n"
"\n"
" foo\n")
restructuredtext.parse(app, text)
objects = list(app.env.get_domain("std").get_objects())
assert ("foo", "foo", "term", "index", "term-0", -1) in objects
def test_cmdoption(app):
text = (".. program:: ls\n"
"\n"
".. option:: -l\n")
domain = app.env.get_domain('std')
doctree = restructuredtext.parse(app, text)
assert_node(doctree, (addnodes.index,
[desc, ([desc_signature, ([desc_name, "-l"],
[desc_addname, ()])],
[desc_content, ()])]))
assert_node(doctree[0], addnodes.index,
entries=[('pair', 'ls command line option; -l', 'cmdoption-ls-l', '', None)])
assert ('ls', '-l') in domain.progoptions
assert domain.progoptions[('ls', '-l')] == ('index', 'cmdoption-ls-l')
def test_cmdoption_for_None(app):
text = (".. program:: ls\n"
".. program:: None\n"
"\n"
".. option:: -l\n")
domain = app.env.get_domain('std')
doctree = restructuredtext.parse(app, text)
assert_node(doctree, (addnodes.index,
[desc, ([desc_signature, ([desc_name, "-l"],
[desc_addname, ()])],
[desc_content, ()])]))
assert_node(doctree[0], addnodes.index,
entries=[('pair', 'command line option; -l', 'cmdoption-l', '', None)])
assert (None, '-l') in domain.progoptions
assert domain.progoptions[(None, '-l')] == ('index', 'cmdoption-l')
def test_multiple_cmdoptions(app):
text = (".. program:: cmd\n"
"\n"
".. option:: -o directory, --output directory\n")
domain = app.env.get_domain('std')
doctree = restructuredtext.parse(app, text)
assert_node(doctree, (addnodes.index,
[desc, ([desc_signature, ([desc_name, "-o"],
[desc_addname, " directory"],
[desc_addname, ", "],
[desc_name, "--output"],
[desc_addname, " directory"])],
[desc_content, ()])]))
assert_node(doctree[0], addnodes.index,
entries=[('pair', 'cmd command line option; -o', 'cmdoption-cmd-o', '', None),
('pair', 'cmd command line option; --output', 'cmdoption-cmd-o', '', None)])
assert ('cmd', '-o') in domain.progoptions
assert ('cmd', '--output') in domain.progoptions
assert domain.progoptions[('cmd', '-o')] == ('index', 'cmdoption-cmd-o')
assert domain.progoptions[('cmd', '--output')] == ('index', 'cmdoption-cmd-o')
@pytest.mark.sphinx(testroot='productionlist')
def test_productionlist(app, status, warning):
app.build(force_all=True)
warnings = warning.getvalue().split("\n")
assert len(warnings) == 2
assert warnings[-1] == ''
assert "Dup2.rst:4: WARNING: duplicate token description of Dup, other instance in Dup1" in warnings[0]
etree = etree_parse(app.outdir / 'index.html')
nodes = list(etree.iter('ul'))
assert len(nodes) >= 2
ul = nodes[1]
cases = []
for li in list(ul):
assert len(list(li)) == 1
p = list(li)[0]
assert p.tag == 'p'
text = str(p.text).strip(' :')
assert len(list(p)) == 1
a = list(p)[0]
assert a.tag == 'a'
link = a.get('href')
assert len(list(a)) == 1
code = list(a)[0]
assert code.tag == 'code'
assert len(list(code)) == 1
span = list(code)[0]
assert span.tag == 'span'
linkText = span.text.strip()
cases.append((text, link, linkText))
assert cases == [
('A', 'Bare.html#grammar-token-A', 'A'),
('B', 'Bare.html#grammar-token-B', 'B'),
('P1:A', 'P1.html#grammar-token-P1-A', 'P1:A'),
('P1:B', 'P1.html#grammar-token-P1-B', 'P1:B'),
('P2:A', 'P1.html#grammar-token-P1-A', 'P1:A'),
('P2:B', 'P2.html#grammar-token-P2-B', 'P2:B'),
('Explicit title A, plain', 'Bare.html#grammar-token-A', 'MyTitle'),
('Explicit title A, colon', 'Bare.html#grammar-token-A', 'My:Title'),
('Explicit title P1:A, plain', 'P1.html#grammar-token-P1-A', 'MyTitle'),
('Explicit title P1:A, colon', 'P1.html#grammar-token-P1-A', 'My:Title'),
('Tilde A', 'Bare.html#grammar-token-A', 'A'),
('Tilde P1:A', 'P1.html#grammar-token-P1-A', 'A'),
('Tilde explicit title P1:A', 'P1.html#grammar-token-P1-A', '~MyTitle'),
('Tilde, explicit title P1:A', 'P1.html#grammar-token-P1-A', 'MyTitle'),
('Dup', 'Dup2.html#grammar-token-Dup', 'Dup'),
('FirstLine', 'firstLineRule.html#grammar-token-FirstLine', 'FirstLine'),
('SecondLine', 'firstLineRule.html#grammar-token-SecondLine', 'SecondLine'),
]
text = (app.outdir / 'LineContinuation.html').read_text(encoding='utf8')
assert "A ::= B C D E F G" in text
def test_productionlist2(app):
text = (".. productionlist:: P2\n"
" A: `:A` `A`\n"
" B: `P1:B` `~P1:B`\n")
doctree = restructuredtext.parse(app, text)
refnodes = list(doctree.findall(pending_xref))
assert_node(refnodes[0], pending_xref, reftarget="A")
assert_node(refnodes[1], pending_xref, reftarget="P2:A")
assert_node(refnodes[2], pending_xref, reftarget="P1:B")
assert_node(refnodes[3], pending_xref, reftarget="P1:B")
assert_node(refnodes[0], [pending_xref, nodes.literal, "A"])
assert_node(refnodes[1], [pending_xref, nodes.literal, "A"])
assert_node(refnodes[2], [pending_xref, nodes.literal, "P1:B"])
assert_node(refnodes[3], [pending_xref, nodes.literal, "B"])
def test_disabled_docref(app):
text = (":doc:`index`\n"
":doc:`!index`\n")
doctree = restructuredtext.parse(app, text)
assert_node(doctree, ([nodes.paragraph, ([pending_xref, nodes.inline, "index"],
"\n",
[nodes.inline, "index"])],))
def test_labeled_rubric(app):
text = (".. _label:\n"
".. rubric:: blah *blah* blah\n")
restructuredtext.parse(app, text)
domain = app.env.get_domain("std")
assert 'label' in domain.labels
assert domain.labels['label'] == ('index', 'label', 'blah blah blah')
def test_labeled_definition(app):
text = (".. _label1:\n"
"\n"
"Foo blah *blah* blah\n"
" Definition\n"
"\n"
".. _label2:\n"
"\n"
"Bar blah *blah* blah\n"
" Definition\n"
"\n")
restructuredtext.parse(app, text)
domain = app.env.get_domain("std")
assert 'label1' in domain.labels
assert domain.labels['label1'] == ('index', 'label1', 'Foo blah blah blah')
assert 'label2' in domain.labels
assert domain.labels['label2'] == ('index', 'label2', 'Bar blah blah blah')
def test_labeled_field(app):
text = (".. _label1:\n"
"\n"
":Foo blah *blah* blah:\n"
" Definition\n"
"\n"
".. _label2:\n"
"\n"
":Bar blah *blah* blah:\n"
" Definition\n"
"\n")
restructuredtext.parse(app, text)
domain = app.env.get_domain("std")
assert 'label1' in domain.labels
assert domain.labels['label1'] == ('index', 'label1', 'Foo blah blah blah')
assert 'label2' in domain.labels
assert domain.labels['label2'] == ('index', 'label2', 'Bar blah blah blah')
@pytest.mark.sphinx('html', testroot='manpage_url',
confoverrides={'manpages_url': 'https://example.com/{page}.{section}'})
def test_html_manpage(app):
app.build(force_all=True)
content = (app.outdir / 'index.html').read_text(encoding='utf8')
assert (''
'man(1)'
'') in content
assert (''
'ls.1'
'') in content
assert (''
'sphinx'
'') in content
assert (''
'mailx(1)'
'') in content
assert 'man(1)' in content