#! /usr/bin/env python # -*- coding: utf-8 -*- # $Id: test_nodes.py 5046 2007-04-10 16:50:17Z wiemann $ # Author: David Goodger # Copyright: This module has been placed in the public domain. """ Test module for nodes.py. """ import unittest from types import ClassType import DocutilsTestSupport # must be imported before docutils from DocutilsTestSupport import nodes, utils debug = 0 class TextTests(unittest.TestCase): def setUp(self): self.text = nodes.Text('Line 1.\nLine 2.') self.unicode_text = nodes.Text(unicode('Möhren', 'utf8')) def test_repr(self): self.assertEquals(repr(self.text), r"<#text: 'Line 1.\nLine 2.'>") def test_str(self): self.assertEquals(str(self.text), 'Line 1.\nLine 2.') def test_unicode(self): self.assertEquals(unicode(self.unicode_text), unicode('Möhren', 'utf8')) self.assertEquals(str(self.unicode_text), 'M\xf6hren') def test_astext(self): self.assertEquals(self.text.astext(), 'Line 1.\nLine 2.') def test_pformat(self): self.assertEquals(self.text.pformat(), 'Line 1.\nLine 2.\n') class ElementTests(unittest.TestCase): def test_empty(self): element = nodes.Element() self.assertEquals(repr(element), '') self.assertEquals(str(element), '') dom = element.asdom() self.assertEquals(dom.toxml(), '') dom.unlink() element['attr'] = '1' self.assertEquals(repr(element), '') self.assertEquals(str(element), '') dom = element.asdom() self.assertEquals(dom.toxml(), '') dom.unlink() self.assertEquals(element.pformat(), '\n') del element['attr'] element['mark'] = u'\u2022' self.assertEquals(repr(element), '') self.assertEquals(str(element), '') dom = element.asdom() self.assertEquals(dom.toxml(), u'') dom.unlink() def test_withtext(self): element = nodes.Element('text\nmore', nodes.Text('text\nmore')) self.assertEquals(repr(element), r">") self.assertEquals(str(element), 'text\nmore') dom = element.asdom() self.assertEquals(dom.toxml(), 'text\nmore') dom.unlink() element['attr'] = '1' self.assertEquals(repr(element), r">") self.assertEquals(str(element), 'text\nmore') dom = element.asdom() self.assertEquals(dom.toxml(), 'text\nmore') dom.unlink() self.assertEquals(element.pformat(), '\n text\n more\n') def test_clear(self): element = nodes.Element() element += nodes.Element() self.assert_(len(element)) element.clear() self.assert_(not len(element)) def test_normal_attributes(self): element = nodes.Element() self.assert_(not element.has_key('foo')) self.assertRaises(KeyError, element.__getitem__, 'foo') element['foo'] = 'sometext' self.assertEquals(element['foo'], 'sometext') del element['foo'] self.assertRaises(KeyError, element.__getitem__, 'foo') def test_default_attributes(self): element = nodes.Element() self.assertEquals(element['ids'], []) self.assertEquals(element.non_default_attributes(), {}) self.assert_(not element.is_not_default('ids')) self.assert_(element['ids'] is not nodes.Element()['ids']) element['ids'].append('someid') self.assertEquals(element['ids'], ['someid']) self.assertEquals(element.non_default_attributes(), {'ids': ['someid']}) self.assert_(element.is_not_default('ids')) def test_update_basic_atts(self): element1 = nodes.Element(ids=['foo', 'bar'], test=['test1']) element2 = nodes.Element(ids=['baz', 'qux'], test=['test2']) element1.update_basic_atts(element2) # 'ids' are appended because 'ids' is a basic attribute. self.assertEquals(element1['ids'], ['foo', 'bar', 'baz', 'qux']) # 'test' is not overwritten because it is not a basic attribute. self.assertEquals(element1['test'], ['test1']) def test_replace_self(self): parent = nodes.Element(ids=['parent']) child1 = nodes.Element(ids=['child1']) grandchild = nodes.Element(ids=['grandchild']) child1 += grandchild child2 = nodes.Element(ids=['child2']) twins = [nodes.Element(ids=['twin%s' % i]) for i in (1, 2)] child2 += twins child3 = nodes.Element(ids=['child3']) child4 = nodes.Element(ids=['child4']) parent += [child1, child2, child3, child4] self.assertEquals(parent.pformat(), """\ """) # Replace child1 with the grandchild. child1.replace_self(child1[0]) self.assertEquals(parent[0], grandchild) # Assert that 'ids' have been updated. self.assertEquals(grandchild['ids'], ['grandchild', 'child1']) # Replace child2 with its children. child2.replace_self(child2[:]) self.assertEquals(parent[1:3], twins) # Assert that 'ids' have been propagated to first child. self.assertEquals(twins[0]['ids'], ['twin1', 'child2']) self.assertEquals(twins[1]['ids'], ['twin2']) # Replace child3 with new child. newchild = nodes.Element(ids=['newchild']) child3.replace_self(newchild) self.assertEquals(parent[3], newchild) self.assertEquals(newchild['ids'], ['newchild', 'child3']) # Crazy but possible case: Substitute child4 for itself. child4.replace_self(child4) # Make sure the 'child4' ID hasn't been duplicated. self.assertEquals(child4['ids'], ['child4']) self.assertEquals(len(parent), 5) def test_unicode(self): node = nodes.Element(u'Möhren', nodes.Text(unicode('Möhren', 'utf8'), unicode('Möhren', 'utf8'))) self.assertEquals(unicode(node), unicode('Möhren', 'utf8')) class MiscTests(unittest.TestCase): def test_node_class_names(self): node_class_names = [] for x in dir(nodes): c = getattr(nodes, x) if isinstance(c, ClassType) and issubclass(c, nodes.Node) \ and len(c.__bases__) > 1: node_class_names.append(x) node_class_names.sort() nodes.node_class_names.sort() self.assertEquals(node_class_names, nodes.node_class_names) ids = [('a', 'a'), ('A', 'a'), ('', ''), ('a b \n c', 'a-b-c'), ('a.b.c', 'a-b-c'), (' - a - b - c - ', 'a-b-c'), (' - ', ''), (u'\u2020\u2066', ''), (u'a \xa7 b \u2020 c', 'a-b-c'), ('1', ''), ('1abc', 'abc')] def test_make_id(self): for input, output in self.ids: normed = nodes.make_id(input) self.assertEquals(normed, output) def test_traverse(self): e = nodes.Element() e += nodes.Element() e[0] += nodes.Element() e[0] += nodes.TextElement() e[0][1] += nodes.Text('some text') e += nodes.Element() e += nodes.Element() self.assertEquals(list(e.traverse()), [e, e[0], e[0][0], e[0][1], e[0][1][0], e[1], e[2]]) self.assertEquals(list(e.traverse(include_self=0)), [e[0], e[0][0], e[0][1], e[0][1][0], e[1], e[2]]) self.assertEquals(list(e.traverse(descend=0)), [e]) self.assertEquals(list(e[0].traverse(descend=0, ascend=1)), [e[0], e[1], e[2]]) self.assertEquals(list(e[0][0].traverse(descend=0, ascend=1)), [e[0][0], e[0][1], e[1], e[2]]) self.assertEquals(list(e[0][0].traverse(descend=0, siblings=1)), [e[0][0], e[0][1]]) self.testlist = e[0:2] self.assertEquals(list(e.traverse(condition=self.not_in_testlist)), [e, e[0][0], e[0][1], e[0][1][0], e[2]]) # Return siblings despite siblings=0 because ascend is true. self.assertEquals(list(e[1].traverse(ascend=1, siblings=0)), [e[1], e[2]]) self.assertEquals(list(e[0].traverse()), [e[0], e[0][0], e[0][1], e[0][1][0]]) self.testlist = [e[0][0], e[0][1]] self.assertEquals(list(e[0].traverse(condition=self.not_in_testlist)), [e[0], e[0][1][0]]) self.testlist.append(e[0][1][0]) self.assertEquals(list(e[0].traverse(condition=self.not_in_testlist)), [e[0]]) self.assertEquals(list(e.traverse(nodes.TextElement)), [e[0][1]]) def test_next_node(self): e = nodes.Element() e += nodes.Element() e[0] += nodes.Element() e[0] += nodes.TextElement() e[0][1] += nodes.Text('some text') e += nodes.Element() e += nodes.Element() self.testlist = [e[0], e[0][1], e[1]] compare = [(e, e[0][0]), (e[0], e[0][0]), (e[0][0], e[0][1][0]), (e[0][1], e[0][1][0]), (e[0][1][0], e[2]), (e[1], e[2]), (e[2], None)] for node, next_node in compare: self.assertEquals(node.next_node(self.not_in_testlist, ascend=1), next_node) self.assertEquals(e[0][0].next_node(ascend=1), e[0][1]) self.assertEquals(e[2].next_node(), None) def not_in_testlist(self, x): return x not in self.testlist def test_copy(self): grandchild = nodes.Text('rawsource') child = nodes.emphasis('rawsource', grandchild, att='child') e = nodes.Element('rawsource', child, att='e') # Shallow copy: e_copy = e.copy() self.assert_(e is not e_copy) # Internal attributes (like `rawsource`) are not copied. self.assertEquals(e.rawsource, 'rawsource') self.assertEquals(e_copy.rawsource, '') self.assertEquals(e_copy['att'], 'e') # Children are not copied. self.assertEquals(len(e_copy), 0) # Deep copy: e_deepcopy = e.deepcopy() self.assertEquals(e_deepcopy.rawsource, '') self.assertEquals(e_deepcopy['att'], 'e') # Children are copied recursively. self.assertEquals(e_deepcopy[0][0], grandchild) self.assert_(e_deepcopy[0][0] is not grandchild) self.assertEquals(e_deepcopy[0]['att'], 'child') class TreeCopyVisitorTests(unittest.TestCase): def setUp(self): document = utils.new_document('test data') document += nodes.paragraph('', 'Paragraph 1.') blist = nodes.bullet_list() for i in range(1, 6): item = nodes.list_item() for j in range(1, 4): item += nodes.paragraph('', 'Item %s, paragraph %s.' % (i, j)) blist += item document += blist self.document = document def compare_trees(self, one, two): self.assertEquals(one.__class__, two.__class__) self.assertNotEquals(id(one), id(two)) self.assertEquals(len(one.children), len(two.children)) for i in range(len(one.children)): self.compare_trees(one.children[i], two.children[i]) def test_copy_whole(self): visitor = nodes.TreeCopyVisitor(self.document) self.document.walkabout(visitor) newtree = visitor.get_tree_copy() self.assertEquals(self.document.pformat(), newtree.pformat()) self.compare_trees(self.document, newtree) class MiscFunctionTests(unittest.TestCase): names = [('a', 'a'), ('A', 'a'), ('A a A', 'a a a'), ('A a A a', 'a a a a'), (' AaA\n\r\naAa\tAaA\t\t', 'aaa aaa aaa')] def test_normalize_name(self): for input, output in self.names: normed = nodes.fully_normalize_name(input) self.assertEquals(normed, output) def test_set_id_default(self): # Default prefixes. document = utils.new_document('test') # From name. element = nodes.Element(names=['test']) document.set_id(element) self.assertEquals(element['ids'], ['test']) # Auto-generated. element = nodes.Element() document.set_id(element) self.assertEquals(element['ids'], ['id1']) def test_set_id_custom(self): # Custom prefixes. document = utils.new_document('test') # Change settings. document.settings.id_prefix = 'prefix' document.settings.auto_id_prefix = 'auto' # From name. element = nodes.Element(names=['test']) document.set_id(element) self.assertEquals(element['ids'], ['prefixtest']) # Auto-generated. element = nodes.Element() document.set_id(element) self.assertEquals(element['ids'], ['prefixauto1']) if __name__ == '__main__': unittest.main()