#! /usr/bin/env python # $Id: test_viewlist.py 7400 2012-05-01 08:34:41Z grubert $ # Author: David Goodger # Copyright: This module has been placed in the public domain. """ Test module for the ViewList class from statemachine.py. """ import unittest import sys import re from DocutilsTestSupport import statemachine class ViewListTests(unittest.TestCase): # python 2.3 if not hasattr(unittest.TestCase, "assertTrue"): assertTrue = unittest.TestCase.assertTrue a_list = list('abcdefg') b_list = list('AEIOU') c_list = list('XYZ') def setUp(self): self.a = statemachine.ViewList(self.a_list, 'a') self.b = statemachine.ViewList(self.b_list, 'b') self.c = statemachine.ViewList(self.c_list, 'c') def test_xitems(self): self.assertEqual(list(self.b.xitems()), [('b', 0, 'A'), ('b', 1, 'E'), ('b', 2, 'I'), ('b', 3, 'O'), ('b', 4, 'U')]) self.assertEqual(list(self.c.xitems()), [('c', 0, 'X'), ('c', 1, 'Y'), ('c', 2, 'Z')]) def test_lists(self): # be compatible to standard lists whenever sensible: self.assertEqual(self.a, self.a_list) self.assertEqual(str(self.a), str(self.a_list)) self.assertEqual(self.b, self.b_list) self.assertEqual(self.c, self.c_list) self.assertEqual(len(self.a), len(self.a_list)) self.assertTrue('d' in self.a) # __contains__ self.assertEqual([value for value in self.a], self.a_list) # get and set values self.assertEqual(self.a[2], self.a_list[2]) a = self.a[:] self.assertEqual(a, self.a) a[1] = 3 self.assertEqual(a[1], 3) # the `items` list contains the metadata (source/offset tuples) self.assertEqual(self.a.items, [('a', i) for (i, v) in enumerate(self.a_list)]) def test_special_class_methods(self): # `repr` returns instantiation expression self.assertEqual(repr(self.a), "ViewList(%s, items=%s)" % (repr(self.a_list), repr(self.a.items))) # `del` also deletes meta-data: del(self.c[1]) self.assertEqual(list(self.c.xitems()), [('c', 0, 'X'), ('c', 2, 'Z')]) # operators with extended behaviour ab = self.a + self.b self.assertEqual(ab, self.a_list + self.b_list) self.assertEqual(ab.items, self.a.items + self.b.items) aa = self.a * 2 self.assertEqual(aa, self.a_list * 2) self.assertEqual(aa.items, self.a.items * 2) self.a += self.b self.assertEqual(self.a, self.a_list + self.b_list) # self.assertEqual(self.a.items, self.a.items + self.b.items) def test_get_slice(self): a = self.a[1:-1] a_list = self.a_list[1:-1] self.assertEqual(a, a_list) self.assertEqual(a.items, [('a', i+1) for (i, v) in enumerate(a_list)]) self.assertEqual(a.parent, self.a) # a.pprint() def test_set_slice(self): a = statemachine.ViewList(self.a[:]) s = a[2:-2] s[2:2] = self.b s_list = self.a_list[2:-2] s_list[2:2] = self.b_list # s.pprint() # s[1:4].pprint() self.assertEqual(s, s_list) self.assertEqual(s, a[2:-2]) self.assertEqual(s.items, a[2:-2].items) def test_del_slice(self): a = statemachine.ViewList(self.a[:]) s = a[2:] s_list = self.a_list[2:] del s[3:5] del s_list[3:5] self.assertEqual(s, s_list) self.assertEqual(s, a[2:]) self.assertEqual(s.items, a[2:].items) def test_insert(self): a_list = self.a_list[:] a_list.insert(2, 'Q') a_list[4:4] = self.b_list a = self.a[:] self.assertTrue(isinstance(a, statemachine.ViewList)) a.insert(2, 'Q', 'runtime') a.insert(4, self.b) self.assertEqual(a, a_list) self.assertEqual(a.info(2), ('runtime', 0)) self.assertEqual(a.info(5), ('b', 1)) def test_append(self): a_list = self.a_list[:] a_list.append('Q') a_list.extend(self.b_list) a = statemachine.ViewList(self.a) a.append('Q', 'runtime') a.append(self.b) # a.pprint() self.assertEqual(a, a_list) self.assertEqual(a.info(len(self.a)), ('runtime', 0)) self.assertEqual(a.info(-2), ('b', len(self.b) - 2)) def test_extend(self): a_list = self.a_list[:] a_list.extend(self.b_list) a = statemachine.ViewList(self.a) a.extend(self.b) self.assertEqual(a, a_list) self.assertEqual(a.info(len(self.a) + 1), ('b', 1)) # a.pprint() def test_view(self): a = statemachine.ViewList(self.a[:]) a.insert(4, self.b) s = a[2:-2] s.insert(5, self.c) self.assertEqual(s, a[2:-2]) self.assertEqual(s.items, a[2:-2].items) s.pop() self.assertEqual(s, a[2:-2]) self.assertEqual(s.items, a[2:-2].items) s.remove('X') self.assertEqual(s, a[2:-2]) self.assertEqual(s.items, a[2:-2].items) def test_trim(self): a = statemachine.ViewList(self.a[:]) s = a[1:-1] s.trim_start(1) self.assertEqual(a, self.a) self.assertEqual(s, a[2:-1]) s.trim_end(1) self.assertEqual(a, self.a) self.assertEqual(s, a[2:-2]) def test_info(self): ab = self.a + self.b self.assertEqual(ab.info(0), ('a', 0)) self.assertEqual(ab.info(-1), ('b', len(self.b)-1)) # report source if index is off the list by one self.assertEqual(ab.info(len(ab)), ('b', None)) # `source` and `offset` methods are based on info self.assertEqual(ab.source(-1), 'b') self.assertEqual(ab.offset(-1), len(self.b)-1) def test_reverse(self): c = self.c[:] c.reverse() self.assertEqual(list(c.xitems()), [('c', 2, 'Z'), ('c', 1, 'Y'), ('c', 0, 'X')]) def test_sort(self): c = self.c[:] c.reverse() # c.pprint() c.sort() self.assertEqual(self.c, c) # print # print a # print s # print a.items # print s.items class StringList(unittest.TestCase): text = """\ This is some example text. Here is some indented text. Unindented text. """ indented_string = """\ a literal block""" def setUp(self): self.a_list = self.text.splitlines(1) self.a = statemachine.StringList(self.a_list, 'a') def test_trim_left(self): s = self.a[3:5] s.trim_left(4) self.assertEqual(s, [line.lstrip() for line in self.a_list[3:5]]) def test_get_indented(self): self.assertEqual(self.a.get_indented(), ([], 0, 0)) block = statemachine.StringList( statemachine.string2lines(self.indented_string)) self.assertEqual(block.get_indented(), ([s[6:] for s in block], 6, 1)) if __name__ == '__main__': unittest.main()