def test_make_sortable(self):
"""Verify that strings get decomposed correctly into sortable tuples"""
self.assertEqual(utils.make_sortable("abc"), ("abc", ))
self.assertEqual(utils.make_sortable("123"), (123, ))
self.assertEqual(utils.make_sortable("abc123def456"),
("abc", 123, "def", 456))
self.assertEqual(utils.make_sortable("123abc456"), (123, "abc", 456))
def test_make_sortable(self):
"""Verify that strings get decomposed correctly into sortable tuples"""
self.assertEqual(utils.make_sortable("abc"), ("abc",))
self.assertEqual(utils.make_sortable("123"), (123,))
self.assertEqual(utils.make_sortable("abc123def456"),
("abc", 123, "def", 456))
self.assertEqual(utils.make_sortable("123abc456"), (123, "abc", 456))
def normalize_toc(toc_element):
"""Return a sorting order for a TOC element, primarily based on the
index, and the type of content. General order is regulation text,
appendices, then interpretations."""
sortable_index = tuple(utils.make_sortable(l)
for l in toc_element['index'])
if toc_element.get('is_section'):
return (0,) + sortable_index
elif toc_element.get('is_appendix'):
return (1,) + sortable_index
elif toc_element.get('is_supplement'):
return (2,) + sortable_index
else:
return (3,) + sortable_index
def normalize_toc(toc_element):
"""Return a sorting order for a TOC element, primarily based on the
index, and the type of content. General order is regulation text,
appendices, then interpretations."""
sortable_index = tuple(
utils.make_sortable(l) for l in toc_element['index'])
if toc_element.get('is_section'):
return (0, ) + sortable_index
elif toc_element.get('is_appendix'):
return (1, ) + sortable_index
elif toc_element.get('is_supplement'):
return (2, ) + sortable_index
else:
return (3, ) + sortable_index