net/tools/dafsa/make_dafsa_unittest.py - cobalt - Git at Google

 #!/usr/bin/env python
 # Copyright 2014 The Chromium Authors. All rights reserved.
 # Use of this source code is governed by a BSD-style license that can be
 # found in the LICENSE file.


 import sys
 import unittest
 import make_dafsa


 class ParseGperfTest(unittest.TestCase):
   def testMalformedKey(self):
     """Tests exception is thrown at bad format."""
     infile1 = [ '%%', '', '%%' ]
     self.assertRaises(make_dafsa.InputError, make_dafsa.parse_gperf, infile1)

     infile2 = [ '%%', 'apa,1', '%%' ]
     self.assertRaises(make_dafsa.InputError, make_dafsa.parse_gperf, infile2)

     infile3 = [ '%%', 'apa,  1', '%%' ]
     self.assertRaises(make_dafsa.InputError, make_dafsa.parse_gperf, infile3)

   def testBadValues(self):
     """Tests exception is thrown when value is out of range."""
     infile1 = [ '%%', 'a, -1', '%%' ]
     self.assertRaises(make_dafsa.InputError, make_dafsa.parse_gperf, infile1)

     infile2 = [ '%%', 'a, x', '%%' ]
     self.assertRaises(make_dafsa.InputError, make_dafsa.parse_gperf, infile2)

     infile5 = [ '%%', 'a, 12', '%%' ]
     self.assertRaises(make_dafsa.InputError, make_dafsa.parse_gperf, infile5)

   def testValues(self):
     """Tests legal values are accepted."""
     infile1 = [ '%%', 'a, 0', '%%' ]
     words1 = [ 'a0' ]
     self.assertEqual(make_dafsa.parse_gperf(infile1), words1)

     infile2 = [ '%%', 'a, 1', '%%' ]
     words2 = [ 'a1' ]
     self.assertEqual(make_dafsa.parse_gperf(infile2), words2)

     infile3 = [ '%%', 'a, 2', '%%' ]
     words3 = [ 'a2' ]
     self.assertEqual(make_dafsa.parse_gperf(infile3), words3)

     infile4 = [ '%%', 'a, 3', '%%' ]
     words4 = [ 'a3' ]
     self.assertEqual(make_dafsa.parse_gperf(infile4), words4)

     infile5 = [ '%%', 'a, 4', '%%' ]
     words5 = [ 'a4' ]
     self.assertEqual(make_dafsa.parse_gperf(infile5), words5)

     infile6 = [ '%%', 'a, 6', '%%' ]
     words6 = [ 'a6' ]
     self.assertEqual(make_dafsa.parse_gperf(infile6), words6)

   def testOneWord(self):
     """Tests a single key can be parsed."""
     infile = [ '%%', 'apa, 1', '%%' ]
     words = [ 'apa1' ]
     self.assertEqual(make_dafsa.parse_gperf(infile), words)

   def testTwoWords(self):
     """Tests a sequence of keys can be parsed."""
     infile = [ '%%', 'apa, 1', 'bepa.com, 2', '%%' ]
     words = [ 'apa1', 'bepa.com2' ]
     self.assertEqual(make_dafsa.parse_gperf(infile), words)


 class ToDafsaTest(unittest.TestCase):
   def testEmptyInput(self):
     """Tests exception is thrown at empty input."""
     words = ()
     self.assertRaises(make_dafsa.InputError, make_dafsa.to_dafsa, words)

   def testNonASCII(self):
     """Tests exception is thrown if illegal characters are used."""
     words1 = ( chr(0x1F) + 'a1', )
     self.assertRaises(make_dafsa.InputError, make_dafsa.to_dafsa, words1)

     words2 = ( 'a' + chr(0x1F) + '1', )
     self.assertRaises(make_dafsa.InputError, make_dafsa.to_dafsa, words2)

     words3 = ( chr(0x80) + 'a1', )
     self.assertRaises(make_dafsa.InputError, make_dafsa.to_dafsa, words3)

     words4 = ( 'a' + chr(0x80) + '1', )
     self.assertRaises(make_dafsa.InputError, make_dafsa.to_dafsa, words4)

   def testChar(self):
     """Tests a DAFSA can be created from a single character domain name."""
     words = [ 'a0' ]
     node2 = ( chr(0), [ None ] )
     node1 = ( 'a', [ node2 ] )
     source = [ node1 ]
     self.assertEqual(make_dafsa.to_dafsa(words), source)

   def testChars(self):
     """Tests a DAFSA can be created from a multi character domain name."""
     words = [ 'ab0' ]
     node3 = ( chr(0), [ None ] )
     node2 = ( 'b', [ node3 ] )
     node1 = ( 'a', [ node2 ] )
     source = [ node1 ]
     self.assertEqual(make_dafsa.to_dafsa(words), source)

   def testWords(self):
     """Tests a DAFSA can be created from a sequence of domain names."""
     words = [ 'a0', 'b1' ]
     node4 = ( chr(1), [ None ] )
     node3 = ( 'b', [ node4 ] )
     node2 = ( chr(0), [ None ] )
     node1 = ( 'a', [ node2 ] )
     source = [ node1, node3 ]
     self.assertEqual(make_dafsa.to_dafsa(words), source)


 class ToWordsTest(unittest.TestCase):
   def testSink(self):
     """Tests the sink is exapnded to a list with an empty string."""
     node1 = None
     words = [ '' ]
     self.assertEqual(make_dafsa.to_words(node1), words)

   def testSingleNode(self):
     """Tests a single node is expanded to a list with the label string."""

     # 'ab' -> [ 'ab' ]

     node1 = ( 'ab', [ None ] )
     words = [ 'ab' ]
     self.assertEqual(make_dafsa.to_words(node1), words)

   def testChain(self):
     """Tests a sequence of nodes are preoperly expanded."""

     # 'ab' -> 'cd' => [ 'abcd' ]

     node2 = ( 'cd', [ None ] )
     node1 = ( 'ab', [ node2 ] )
     words = [ 'abcd' ]
     self.assertEqual(make_dafsa.to_words(node1), words)

   def testInnerTerminator(self):
     """Tests a sequence with an inner terminator is expanded to two strings."""

     # 'a' -> 'b'
     #   \       => [ 'ab', 'a' ]
     #  {sink}

     node2 = ( 'b', [ None ] )
     node1 = ( 'a', [ node2, None ] )
     words = [ 'ab', 'a' ]
     self.assertEqual(make_dafsa.to_words(node1), words)

   def testDiamond(self):
     """Tests a diamond can be expanded to a word list."""

     #   'cd'
     #   /  \
     # 'ab' 'gh'
     #   \  /
     #   'ef'

     node4 = ( 'gh', [ None ] )
     node3 = ( 'ef', [ node4 ] )
     node2 = ( 'cd', [ node4 ] )
     node1 = ( 'ab', [ node2, node3 ] )
     words = [ 'abcdgh', 'abefgh' ]
     self.assertEqual(make_dafsa.to_words(node1), words)


 class JoinLabelsTest(unittest.TestCase):
   def testLabel(self):
     """Tests a single label passes unchanged."""

     # 'a'  =>  'a'

     node1 = ( 'a', [ None ] )
     source = [ node1 ]
     self.assertEqual(make_dafsa.join_labels(source), source)

   def testInnerTerminator(self):
     """Tests a sequence with an inner terminator passes unchanged."""

     # 'a' -> 'b'    'a' -> 'b'
     #   \       =>    \
     #  {sink}        {sink}

     node2 = ( 'b', [ None ] )
     node1 = ( 'a', [ node2, None ] )
     source = [ node1 ]
     self.assertEqual(make_dafsa.join_labels(source), source)

   def testLabels(self):
     """Tests a sequence of labels can be joined."""

     # 'a' -> 'b'  =>  'ab'

     node2 = ( 'b', [ None ] )
     node1 = ( 'a', [ node2 ] )
     source1 = [ node1 ]
     node3 = ( 'ab', [ None ] )
     source2 = [ node3 ]
     self.assertEqual(make_dafsa.join_labels(source1), source2)

   def testCompositeLabels(self):
     """Tests a sequence of multi character labels can be joined."""

     # 'ab' -> 'cd'  =>  'abcd'

     node2 = ( 'cd', [ None ] )
     node1 = ( 'ab', [ node2 ] )
     source1 = [ node1 ]
     node3 = ( 'abcd', [ None ] )
     source2 = [ node3 ]
     self.assertEqual(make_dafsa.join_labels(source1), source2)

   def testAtomicTrie(self):
     """Tests a trie formed DAFSA with atomic labels passes unchanged."""

     #   'b'       'b'
     #   /         /
     # 'a'   =>  'a'
     #   \         \
     #   'c'       'c'

     node3 = ( 'c', [ None ] )
     node2 = ( 'b', [ None ] )
     node1 = ( 'a', [ node2, node3 ] )
     source = [ node1 ]
     self.assertEqual(make_dafsa.join_labels(source), source)

   def testReverseAtomicTrie(self):
     """Tests a reverse trie formed DAFSA with atomic labels passes unchanged."""

     # 'a'        'a'
     #   \          \
     #   'c'  =>    'c'
     #   /          /
     # 'b'        'b'

     node3 = ( 'c', [ None ] )
     node2 = ( 'b', [ node3 ] )
     node1 = ( 'a', [ node3 ] )
     source = [ node1, node2 ]
     self.assertEqual(make_dafsa.join_labels(source), source)

   def testChainedTrie(self):
     """Tests a trie formed DAFSA with chained labels can be joined."""

     #          'c' -> 'd'         'cd'
     #          /                  /
     # 'a' -> 'b'           =>  'ab'
     #          \                  \
     #          'e' -> 'f'         'ef'

     node6 = ( 'f', [ None ] )
     node5 = ( 'e', [ node6 ] )
     node4 = ( 'd', [ None ] )
     node3 = ( 'c', [ node4 ] )
     node2 = ( 'b', [ node3, node5 ] )
     node1 = ( 'a', [ node2 ] )
     source1 = [ node1 ]
     node9 = ( 'ef', [ None ] )
     node8 = ( 'cd', [ None ] )
     node7 = ( 'ab', [ node8, node9 ] )
     source2 = [ node7 ]
     self.assertEqual(make_dafsa.join_labels(source1), source2)

   def testReverseChainedTrie(self):
     """Tests a reverse trie formed DAFSA with chained labels can be joined."""

     # 'a' -> 'b'               'ab'
     #          \                  \
     #          'e' -> 'f'  =>     'ef'
     #          /                  /
     # 'c' -> 'd'               'cd'

     node6 = ( 'f', [ None ] )
     node5 = ( 'e', [ node6 ] )
     node4 = ( 'd', [ node5 ] )
     node3 = ( 'c', [ node4 ] )
     node2 = ( 'b', [ node5 ] )
     node1 = ( 'a', [ node2 ] )
     source1 = [ node1, node3 ]
     node9 = ( 'ef', [ None ] )
     node8 = ( 'cd', [ node9 ] )
     node7 = ( 'ab', [ node9 ] )
     source2 = [ node7, node8 ]
     self.assertEqual(make_dafsa.join_labels(source1), source2)


 class JoinSuffixesTest(unittest.TestCase):
   def testSingleLabel(self):
     """Tests a single label passes unchanged."""

     # 'a'  =>  'a'

     node1 = ( 'a', [ None ] )
     source = [ node1 ]
     self.assertEqual(make_dafsa.join_suffixes(source), source)

   def testInnerTerminator(self):
     """Tests a sequence with an inner terminator passes unchanged."""

     # 'a' -> 'b'    'a' -> 'b'
     #   \       =>    \
     #  {sink}        {sink}

     node2 = ( 'b', [ None ] )
     node1 = ( 'a', [ node2, None ] )
     source = [ node1 ]
     self.assertEqual(make_dafsa.join_suffixes(source), source)

   def testDistinctTrie(self):
     """Tests a trie formed DAFSA with distinct labels passes unchanged."""

     #   'b'       'b'
     #   /         /
     # 'a'   =>  'a'
     #   \         \
     #   'c'       'c'

     node3 = ( 'c', [ None ] )
     node2 = ( 'b', [ None ] )
     node1 = ( 'a', [ node2, node3 ] )
     source = [ node1 ]
     self.assertEqual(make_dafsa.join_suffixes(source), source)

   def testReverseDistinctTrie(self):
     """Tests a reverse trie formed DAFSA with distinct labels passes unchanged.
     """

     # 'a'        'a'
     #   \          \
     #   'c'  =>    'c'
     #   /          /
     # 'b'        'b'

     node3 = ( 'c', [ None ] )
     node2 = ( 'b', [ node3 ] )
     node1 = ( 'a', [ node3 ] )
     source = [ node1, node2 ]
     self.assertEqual(make_dafsa.join_suffixes(source), source)

   def testJoinTwoHeads(self):
     """Tests two heads can be joined even if there is something else between."""

     # 'a'       ------'a'
     #                 /
     # 'b'  =>  'b'   /
     #               /
     # 'a'       ---
     #
     # The picture above should shows that the new version should have just one
     # instance of the node with label 'a'.

     node3 = ( 'a', [ None ] )
     node2 = ( 'b', [ None ] )
     node1 = ( 'a', [ None ] )
     source1 = [ node1, node2, node3 ]
     source2 = make_dafsa.join_suffixes(source1)

     # Both versions should expand to the same content.
     self.assertEqual(source1, source2)
     # But the new version should have just one instance of 'a'.
     self.assertIs(source2[0], source2[2])

   def testJoinTails(self):
     """Tests tails can be joined."""

     # 'a' -> 'c'      'a'
     #                   \
     #             =>    'c'
     #                   /
     # 'b' -> 'c'      'b'

     node4 = ( 'c', [ None ] )
     node3 = ( 'b', [ node4 ] )
     node2 = ( 'c', [ None ] )
     node1 = ( 'a', [ node2 ] )
     source1 = [ node1, node3 ]
     source2 = make_dafsa.join_suffixes(source1)

     # Both versions should expand to the same content.
     self.assertEqual(source1, source2)
     # But the new version should have just one tail.
     self.assertIs(source2[0][1][0], source2[1][1][0])

   def testMakeRecursiveTrie(self):
     """Tests recursive suffix join."""

     # 'a' -> 'e' -> 'g'     'a'
     #                         \
     #                         'e'
     #                         / \
     # 'b' -> 'e' -> 'g'     'b'  \
     #                             \
     #                   =>        'g'
     #                             /
     # 'c' -> 'f' -> 'g'     'c'  /
     #                         \ /
     #                         'f'
     #                         /
     # 'd' -> 'f' -> 'g'     'd'

     node7 = ( 'g', [ None ] )
     node6 = ( 'f', [ node7 ] )
     node5 = ( 'e', [ node7 ] )
     node4 = ( 'd', [ node6 ] )
     node3 = ( 'c', [ node6 ] )
     node2 = ( 'b', [ node5 ] )
     node1 = ( 'a', [ node5 ] )
     source1 = [ node1, node2, node3, node4 ]
     source2 = make_dafsa.join_suffixes(source1)

     # Both versions should expand to the same content.
     self.assertEqual(source1, source2)
     # But the new version should have just one 'e'.
     self.assertIs(source2[0][1][0], source2[1][1][0])
     # And one 'f'.
     self.assertIs(source2[2][1][0], source2[3][1][0])
     # And one 'g'.
     self.assertIs(source2[0][1][0][1][0], source2[2][1][0][1][0])

   def testMakeDiamond(self):
     """Test we can join suffixes of a trie."""

     #   'b' -> 'd'        'b'
     #   /                 / \
     # 'a'           =>  'a' 'd'
     #   \                 \ /
     #   'c' -> 'd'        'c'

     node5 = ( 'd', [ None ] )
     node4 = ( 'c', [ node5 ] )
     node3 = ( 'd', [ None ] )
     node2 = ( 'b', [ node3 ] )
     node1 = ( 'a', [ node2, node4 ] )
     source1 = [ node1 ]
     source2 = make_dafsa.join_suffixes(source1)

     # Both versions should expand to the same content.
     self.assertEqual(source1, source2)
     # But the new version should have just one 'd'.
     self.assertIs(source2[0][1][0][1][0], source2[0][1][1][1][0])

   def testJoinOneChild(self):
     """Tests that we can join some children but not all."""

     #   'c'            ----'c'
     #   /            /     /
     # 'a'          'a'    /
     #   \            \   /
     #   'd'          'd'/
     #          =>      /
     #   'c'           /
     #   /            /
     # 'b'          'b'
     #   \            \
     #   'e'          'e'

     node6 = ( 'e', [ None ] )
     node5 = ( 'c', [ None ] )
     node4 = ( 'b', [ node5, node6 ] )
     node3 = ( 'd', [ None ] )
     node2 = ( 'c', [ None ] )
     node1 = ( 'a', [ node2, node3 ] )
     source1 = [ node1, node4 ]
     source2 = make_dafsa.join_suffixes(source1)

     # Both versions should expand to the same content.
     self.assertEqual(source1, source2)
     # But the new version should have just one 'c'.
     self.assertIs(source2[0][1][0], source2[1][1][0])


 class ReverseTest(unittest.TestCase):
   def testAtomicLabel(self):
     """Tests an atomic label passes unchanged."""

     # 'a'  =>  'a'

     node1 = ( 'a', [ None ] )
     source = [ node1 ]
     self.assertEqual(make_dafsa.reverse(source), source)

   def testLabel(self):
     """Tests that labels are reversed."""

     # 'ab'  =>  'ba'

     node1 = ( 'ab', [ None ] )
     source1 = [ node1 ]
     node2 = ( 'ba', [ None ] )
     source2 = [ node2 ]
     self.assertEqual(make_dafsa.reverse(source1), source2)

   def testChain(self):
     """Tests that edges are reversed."""

     # 'a' -> 'b'  =>  'b' -> 'a'

     node2 = ( 'b', [ None ] )
     node1 = ( 'a', [ node2 ] )
     source1 = [ node1 ]
     node4 = ( 'a', [ None ] )
     node3 = ( 'b', [ node4 ] )
     source2 = [ node3 ]
     self.assertEqual(make_dafsa.reverse(source1), source2)

   def testInnerTerminator(self):
     """Tests a sequence with an inner terminator can be reversed."""

     # 'a' -> 'b'    'b' -> 'a'
     #   \       =>         /
     #  {sink}        ------

     node2 = ( 'b', [ None ] )
     node1 = ( 'a', [ node2, None ] )
     source1 = [ node1 ]
     node4 = ( 'a', [ None ] )
     node3 = ( 'b', [ node4 ] )
     source2 = [ node3, node4 ]
     self.assertEqual(make_dafsa.reverse(source1), source2)

   def testAtomicTrie(self):
     """Tests a trie formed DAFSA can be reversed."""

     #   'b'     'b'
     #   /         \
     # 'a'   =>    'a'
     #   \         /
     #   'c'     'c'

     node3 = ( 'c', [ None ] )
     node2 = ( 'b', [ None ] )
     node1 = ( 'a', [ node2, node3 ] )
     source1 = [ node1 ]
     node6 = ( 'a', [ None ] )
     node5 = ( 'c', [ node6 ] )
     node4 = ( 'b', [ node6 ] )
     source2 = [ node4, node5 ]
     self.assertEqual(make_dafsa.reverse(source1), source2)

   def testReverseAtomicTrie(self):
     """Tests a reverse trie formed DAFSA can be reversed."""

     # 'a'          'a'
     #   \          /
     #   'c'  =>  'c'
     #   /          \
     # 'b'          'b'

     node3 = ( 'c', [ None ] )
     node2 = ( 'b', [ node3 ] )
     node1 = ( 'a', [ node3 ] )
     source1 = [ node1, node2 ]
     node6 = ( 'b', [ None ] )
     node5 = ( 'a', [ None ] )
     node4 = ( 'c', [ node5, node6 ] )
     source2 = [ node4 ]
     self.assertEqual(make_dafsa.reverse(source1), source2)

   def testDiamond(self):
     """Tests we can reverse both edges and nodes in a diamond."""

     #   'cd'           'dc'
     #   /  \           /  \
     # 'ab' 'gh'  =>  'hg' 'ba'
     #   \  /           \  /
     #   'ef'           'fe'

     node4 = ( 'gh', [ None ] )
     node3 = ( 'ef', [ node4 ] )
     node2 = ( 'cd', [ node4 ] )
     node1 = ( 'ab', [ node2, node3 ] )
     source1 = [ node1 ]
     node8 = ( 'ba', [ None ] )
     node7 = ( 'fe', [ node8 ] )
     node6 = ( 'dc', [ node8 ] )
     node5 = ( 'hg', [ node6, node7 ] )
     source2 = [ node5 ]
     self.assertEqual(make_dafsa.reverse(source1), source2)


 class TopSortTest(unittest.TestCase):
   def testNode(self):
     """Tests a DAFSA with one node can be sorted."""

     # 'a'  =>  [ 'a' ]

     node1 = ( 'a', [ None ] )
     source = [ node1 ]
     nodes = [ node1 ]
     self.assertEqual(make_dafsa.top_sort(source), nodes)

   def testDiamond(self):
     """Tests nodes in a diamond can be sorted."""

     #   'b'
     #   / \
     # 'a' 'd'
     #   \ /
     #   'c'

     node4 = ( 'd', [ None ] )
     node3 = ( 'c', [ node4 ] )
     node2 = ( 'b', [ node4 ] )
     node1 = ( 'a', [ node2, node3 ] )
     source = [ node1 ]
     nodes = make_dafsa.top_sort(source)
     self.assertLess(nodes.index(node1), nodes.index(node2))
     self.assertLess(nodes.index(node2), nodes.index(node4))
     self.assertLess(nodes.index(node3), nodes.index(node4))


 class EncodePrefixTest(unittest.TestCase):
   def testChar(self):
     """Tests to encode a single character prefix."""
     label = 'a'
     bytes = [ ord('a') ]
     self.assertEqual(make_dafsa.encode_prefix(label), bytes)

   def testChars(self):
     """Tests to encode a multi character prefix."""
     label = 'ab'
     bytes = [ ord('b'), ord('a') ]
     self.assertEqual(make_dafsa.encode_prefix(label), bytes)


 class EncodeLabelTest(unittest.TestCase):
   def testChar(self):
     """Tests to encode a single character label."""
     label = 'a'
     bytes = [ ord('a') + 0x80 ]
     self.assertEqual(make_dafsa.encode_label(label), bytes)

   def testChars(self):
     """Tests to encode a multi character label."""
     label = 'ab'
     bytes = [ ord('b') + 0x80, ord('a') ]
     self.assertEqual(make_dafsa.encode_label(label), bytes)


 class EncodeLinksTest(unittest.TestCase):
   def testEndLabel(self):
     """Tests to encode link to the sink."""
     children = [ None ]
     offsets = {}
     bytes = 0
     output = []
     self.assertEqual(make_dafsa.encode_links(children, offsets, bytes),
                       output)

   def testOneByteOffset(self):
     """Tests to encode a single one byte offset."""
     node = ( '', [ None ] )
     children = [ node ]
     offsets = { id(node) : 2 }
     bytes = 5
     output = [ 132 ]
     self.assertEqual(make_dafsa.encode_links(children, offsets, bytes),
                       output)

   def testOneByteOffsets(self):
     """Tests to encode a sequence of one byte offsets."""
     node1 = ( '', [ None ] )
     node2 = ( '', [ None ] )
     children = [ node1, node2 ]
     offsets = { id(node1) : 2, id(node2) : 1 }
     bytes = 5
     output = [ 129, 5 ]
     self.assertEqual(make_dafsa.encode_links(children, offsets, bytes),
                       output)

   def testTwoBytesOffset(self):
     """Tests to encode a single two byte offset."""
     node = ( '', [ None ] )
     children = [ node ]
     offsets = { id(node) : 2 }
     bytes = 1005
     output = [ 237, 195]
     self.assertEqual(make_dafsa.encode_links(children, offsets, bytes),
                       output)

   def testTwoBytesOffsets(self):
     """Tests to encode a sequence of two byte offsets."""
     node1 = ( '', [ None ] )
     node2 = ( '', [ None ] )
     node3 = ( '', [ None ] )
     children = [ node1, node2, node3 ]
     offsets = { id(node1) : 1002, id(node2) : 2, id(node3) : 2002 }
     bytes = 3005
     output = [ 232, 195, 232, 67, 241, 67 ]
     self.assertEqual(make_dafsa.encode_links(children, offsets, bytes),
                       output)

   def testThreeBytesOffset(self):
     """Tests to encode a single three byte offset."""
     node = ( '', [ None ] )
     children = [ node ]
     offsets = { id(node) : 2 }
     bytes = 100005
     output = [ 166, 134, 225 ]
     self.assertEqual(make_dafsa.encode_links(children, offsets, bytes),
                       output)

   def testThreeBytesOffsets(self):
     """Tests to encode a sequence of three byte offsets."""
     node1 = ( '', [ None ] )
     node2 = ( '', [ None ] )
     node3 = ( '', [ None ] )
     children = [ node1, node2, node3 ]
     offsets = { id(node1) : 100002, id(node2) : 2, id(node3) : 200002 }
     bytes = 300005
     output = [ 160, 134, 225, 160, 134, 97, 172, 134, 97 ]
     self.assertEqual(make_dafsa.encode_links(children, offsets, bytes),
                       output)

   def testOneTwoThreeBytesOffsets(self):
     """Tests to encode offsets of different sizes."""
     node1 = ( '', [ None ] )
     node2 = ( '', [ None ] )
     node3 = ( '', [ None ] )
     children = [ node1, node2, node3 ]
     offsets = { id(node1) : 10003, id(node2) : 10002, id(node3) : 100002 }
     bytes = 300005
     output = [ 129, 143, 95, 97, 74, 13, 99 ]
     self.assertEqual(make_dafsa.encode_links(children, offsets, bytes),
                       output)


 class ExamplesTest(unittest.TestCase):
   def testExample1(self):
     """Tests Example 1 from make_dafsa.py."""
     infile = [ '%%', 'aa, 1', 'a, 2', '%%' ]
     bytes = [ 0x81, 0xE1, 0x02, 0x81, 0x82, 0x61, 0x81 ]
     outfile = make_dafsa.to_cxx(bytes)
     self.assertEqual(make_dafsa.words_to_cxx(make_dafsa.parse_gperf(infile)),
                       outfile)

   def testExample2(self):
     """Tests Example 2 from make_dafsa.py."""
     infile = [ '%%', 'aa, 1', 'bbb, 2', 'baa, 1', '%%' ]
     bytes = [ 0x02, 0x83, 0xE2, 0x02, 0x83, 0x61, 0x61, 0x81, 0x62, 0x62,
               0x82 ]
     outfile = make_dafsa.to_cxx(bytes)
     self.assertEqual(make_dafsa.words_to_cxx(make_dafsa.parse_gperf(infile)),
                       outfile)


 if __name__ == '__main__':
   unittest.main()
	#!/usr/bin/env python
	# Copyright 2014 The Chromium Authors. All rights reserved.
	# Use of this source code is governed by a BSD-style license that can be
	# found in the LICENSE file.


	import sys
	import unittest
	import make_dafsa


	class ParseGperfTest(unittest.TestCase):
	def testMalformedKey(self):
	"""Tests exception is thrown at bad format."""
	infile1 = [ '%%', '', '%%' ]
	self.assertRaises(make_dafsa.InputError, make_dafsa.parse_gperf, infile1)

	infile2 = [ '%%', 'apa,1', '%%' ]
	self.assertRaises(make_dafsa.InputError, make_dafsa.parse_gperf, infile2)

	infile3 = [ '%%', 'apa, 1', '%%' ]
	self.assertRaises(make_dafsa.InputError, make_dafsa.parse_gperf, infile3)

	def testBadValues(self):
	"""Tests exception is thrown when value is out of range."""
	infile1 = [ '%%', 'a, -1', '%%' ]
	self.assertRaises(make_dafsa.InputError, make_dafsa.parse_gperf, infile1)

	infile2 = [ '%%', 'a, x', '%%' ]
	self.assertRaises(make_dafsa.InputError, make_dafsa.parse_gperf, infile2)

	infile5 = [ '%%', 'a, 12', '%%' ]
	self.assertRaises(make_dafsa.InputError, make_dafsa.parse_gperf, infile5)

	def testValues(self):
	"""Tests legal values are accepted."""
	infile1 = [ '%%', 'a, 0', '%%' ]
	words1 = [ 'a0' ]
	self.assertEqual(make_dafsa.parse_gperf(infile1), words1)

	infile2 = [ '%%', 'a, 1', '%%' ]
	words2 = [ 'a1' ]
	self.assertEqual(make_dafsa.parse_gperf(infile2), words2)

	infile3 = [ '%%', 'a, 2', '%%' ]
	words3 = [ 'a2' ]
	self.assertEqual(make_dafsa.parse_gperf(infile3), words3)

	infile4 = [ '%%', 'a, 3', '%%' ]
	words4 = [ 'a3' ]
	self.assertEqual(make_dafsa.parse_gperf(infile4), words4)

	infile5 = [ '%%', 'a, 4', '%%' ]
	words5 = [ 'a4' ]
	self.assertEqual(make_dafsa.parse_gperf(infile5), words5)

	infile6 = [ '%%', 'a, 6', '%%' ]
	words6 = [ 'a6' ]
	self.assertEqual(make_dafsa.parse_gperf(infile6), words6)

	def testOneWord(self):
	"""Tests a single key can be parsed."""
	infile = [ '%%', 'apa, 1', '%%' ]
	words = [ 'apa1' ]
	self.assertEqual(make_dafsa.parse_gperf(infile), words)

	def testTwoWords(self):
	"""Tests a sequence of keys can be parsed."""
	infile = [ '%%', 'apa, 1', 'bepa.com, 2', '%%' ]
	words = [ 'apa1', 'bepa.com2' ]
	self.assertEqual(make_dafsa.parse_gperf(infile), words)


	class ToDafsaTest(unittest.TestCase):
	def testEmptyInput(self):
	"""Tests exception is thrown at empty input."""
	words = ()
	self.assertRaises(make_dafsa.InputError, make_dafsa.to_dafsa, words)

	def testNonASCII(self):
	"""Tests exception is thrown if illegal characters are used."""
	words1 = ( chr(0x1F) + 'a1', )
	self.assertRaises(make_dafsa.InputError, make_dafsa.to_dafsa, words1)

	words2 = ( 'a' + chr(0x1F) + '1', )
	self.assertRaises(make_dafsa.InputError, make_dafsa.to_dafsa, words2)

	words3 = ( chr(0x80) + 'a1', )
	self.assertRaises(make_dafsa.InputError, make_dafsa.to_dafsa, words3)

	words4 = ( 'a' + chr(0x80) + '1', )
	self.assertRaises(make_dafsa.InputError, make_dafsa.to_dafsa, words4)

	def testChar(self):
	"""Tests a DAFSA can be created from a single character domain name."""
	words = [ 'a0' ]
	node2 = ( chr(0), [ None ] )
	node1 = ( 'a', [ node2 ] )
	source = [ node1 ]
	self.assertEqual(make_dafsa.to_dafsa(words), source)

	def testChars(self):
	"""Tests a DAFSA can be created from a multi character domain name."""
	words = [ 'ab0' ]
	node3 = ( chr(0), [ None ] )
	node2 = ( 'b', [ node3 ] )
	node1 = ( 'a', [ node2 ] )
	source = [ node1 ]
	self.assertEqual(make_dafsa.to_dafsa(words), source)

	def testWords(self):
	"""Tests a DAFSA can be created from a sequence of domain names."""
	words = [ 'a0', 'b1' ]
	node4 = ( chr(1), [ None ] )
	node3 = ( 'b', [ node4 ] )
	node2 = ( chr(0), [ None ] )
	node1 = ( 'a', [ node2 ] )
	source = [ node1, node3 ]
	self.assertEqual(make_dafsa.to_dafsa(words), source)


	class ToWordsTest(unittest.TestCase):
	def testSink(self):
	"""Tests the sink is exapnded to a list with an empty string."""
	node1 = None
	words = [ '' ]
	self.assertEqual(make_dafsa.to_words(node1), words)

	def testSingleNode(self):
	"""Tests a single node is expanded to a list with the label string."""

	# 'ab' -> [ 'ab' ]

	node1 = ( 'ab', [ None ] )
	words = [ 'ab' ]
	self.assertEqual(make_dafsa.to_words(node1), words)

	def testChain(self):
	"""Tests a sequence of nodes are preoperly expanded."""

	# 'ab' -> 'cd' => [ 'abcd' ]

	node2 = ( 'cd', [ None ] )
	node1 = ( 'ab', [ node2 ] )
	words = [ 'abcd' ]
	self.assertEqual(make_dafsa.to_words(node1), words)

	def testInnerTerminator(self):
	"""Tests a sequence with an inner terminator is expanded to two strings."""

	# 'a' -> 'b'
	# \ => [ 'ab', 'a' ]
	# {sink}

	node2 = ( 'b', [ None ] )
	node1 = ( 'a', [ node2, None ] )
	words = [ 'ab', 'a' ]
	self.assertEqual(make_dafsa.to_words(node1), words)

	def testDiamond(self):
	"""Tests a diamond can be expanded to a word list."""

	# 'cd'
	# / \
	# 'ab' 'gh'
	# \ /
	# 'ef'

	node4 = ( 'gh', [ None ] )
	node3 = ( 'ef', [ node4 ] )
	node2 = ( 'cd', [ node4 ] )
	node1 = ( 'ab', [ node2, node3 ] )
	words = [ 'abcdgh', 'abefgh' ]
	self.assertEqual(make_dafsa.to_words(node1), words)


	class JoinLabelsTest(unittest.TestCase):
	def testLabel(self):
	"""Tests a single label passes unchanged."""

	# 'a' => 'a'

	node1 = ( 'a', [ None ] )
	source = [ node1 ]
	self.assertEqual(make_dafsa.join_labels(source), source)

	def testInnerTerminator(self):
	"""Tests a sequence with an inner terminator passes unchanged."""

	# 'a' -> 'b' 'a' -> 'b'
	# \ => \
	# {sink} {sink}

	node2 = ( 'b', [ None ] )
	node1 = ( 'a', [ node2, None ] )
	source = [ node1 ]
	self.assertEqual(make_dafsa.join_labels(source), source)

	def testLabels(self):
	"""Tests a sequence of labels can be joined."""

	# 'a' -> 'b' => 'ab'

	node2 = ( 'b', [ None ] )
	node1 = ( 'a', [ node2 ] )
	source1 = [ node1 ]
	node3 = ( 'ab', [ None ] )
	source2 = [ node3 ]
	self.assertEqual(make_dafsa.join_labels(source1), source2)

	def testCompositeLabels(self):
	"""Tests a sequence of multi character labels can be joined."""

	# 'ab' -> 'cd' => 'abcd'

	node2 = ( 'cd', [ None ] )
	node1 = ( 'ab', [ node2 ] )
	source1 = [ node1 ]
	node3 = ( 'abcd', [ None ] )
	source2 = [ node3 ]
	self.assertEqual(make_dafsa.join_labels(source1), source2)

	def testAtomicTrie(self):
	"""Tests a trie formed DAFSA with atomic labels passes unchanged."""

	# 'b' 'b'
	# / /
	# 'a' => 'a'
	# \ \
	# 'c' 'c'

	node3 = ( 'c', [ None ] )
	node2 = ( 'b', [ None ] )
	node1 = ( 'a', [ node2, node3 ] )
	source = [ node1 ]
	self.assertEqual(make_dafsa.join_labels(source), source)

	def testReverseAtomicTrie(self):
	"""Tests a reverse trie formed DAFSA with atomic labels passes unchanged."""

	# 'a' 'a'
	# \ \
	# 'c' => 'c'
	# / /
	# 'b' 'b'

	node3 = ( 'c', [ None ] )
	node2 = ( 'b', [ node3 ] )
	node1 = ( 'a', [ node3 ] )
	source = [ node1, node2 ]
	self.assertEqual(make_dafsa.join_labels(source), source)

	def testChainedTrie(self):
	"""Tests a trie formed DAFSA with chained labels can be joined."""

	# 'c' -> 'd' 'cd'
	# / /
	# 'a' -> 'b' => 'ab'
	# \ \
	# 'e' -> 'f' 'ef'

	node6 = ( 'f', [ None ] )
	node5 = ( 'e', [ node6 ] )
	node4 = ( 'd', [ None ] )
	node3 = ( 'c', [ node4 ] )
	node2 = ( 'b', [ node3, node5 ] )
	node1 = ( 'a', [ node2 ] )
	source1 = [ node1 ]
	node9 = ( 'ef', [ None ] )
	node8 = ( 'cd', [ None ] )
	node7 = ( 'ab', [ node8, node9 ] )
	source2 = [ node7 ]
	self.assertEqual(make_dafsa.join_labels(source1), source2)

	def testReverseChainedTrie(self):
	"""Tests a reverse trie formed DAFSA with chained labels can be joined."""

	# 'a' -> 'b' 'ab'
	# \ \
	# 'e' -> 'f' => 'ef'
	# / /
	# 'c' -> 'd' 'cd'

	node6 = ( 'f', [ None ] )
	node5 = ( 'e', [ node6 ] )
	node4 = ( 'd', [ node5 ] )
	node3 = ( 'c', [ node4 ] )
	node2 = ( 'b', [ node5 ] )
	node1 = ( 'a', [ node2 ] )
	source1 = [ node1, node3 ]
	node9 = ( 'ef', [ None ] )
	node8 = ( 'cd', [ node9 ] )
	node7 = ( 'ab', [ node9 ] )
	source2 = [ node7, node8 ]
	self.assertEqual(make_dafsa.join_labels(source1), source2)


	class JoinSuffixesTest(unittest.TestCase):
	def testSingleLabel(self):
	"""Tests a single label passes unchanged."""

	# 'a' => 'a'

	node1 = ( 'a', [ None ] )
	source = [ node1 ]
	self.assertEqual(make_dafsa.join_suffixes(source), source)

	def testInnerTerminator(self):
	"""Tests a sequence with an inner terminator passes unchanged."""

	# 'a' -> 'b' 'a' -> 'b'
	# \ => \
	# {sink} {sink}

	node2 = ( 'b', [ None ] )
	node1 = ( 'a', [ node2, None ] )
	source = [ node1 ]
	self.assertEqual(make_dafsa.join_suffixes(source), source)

	def testDistinctTrie(self):
	"""Tests a trie formed DAFSA with distinct labels passes unchanged."""

	# 'b' 'b'
	# / /
	# 'a' => 'a'
	# \ \
	# 'c' 'c'

	node3 = ( 'c', [ None ] )
	node2 = ( 'b', [ None ] )
	node1 = ( 'a', [ node2, node3 ] )
	source = [ node1 ]
	self.assertEqual(make_dafsa.join_suffixes(source), source)

	def testReverseDistinctTrie(self):
	"""Tests a reverse trie formed DAFSA with distinct labels passes unchanged.
	"""

	# 'a' 'a'
	# \ \
	# 'c' => 'c'
	# / /
	# 'b' 'b'

	node3 = ( 'c', [ None ] )
	node2 = ( 'b', [ node3 ] )
	node1 = ( 'a', [ node3 ] )
	source = [ node1, node2 ]
	self.assertEqual(make_dafsa.join_suffixes(source), source)

	def testJoinTwoHeads(self):
	"""Tests two heads can be joined even if there is something else between."""

	# 'a' ------'a'
	# /
	# 'b' => 'b' /
	# /
	# 'a' ---
	#
	# The picture above should shows that the new version should have just one
	# instance of the node with label 'a'.

	node3 = ( 'a', [ None ] )
	node2 = ( 'b', [ None ] )
	node1 = ( 'a', [ None ] )
	source1 = [ node1, node2, node3 ]
	source2 = make_dafsa.join_suffixes(source1)

	# Both versions should expand to the same content.
	self.assertEqual(source1, source2)
	# But the new version should have just one instance of 'a'.
	self.assertIs(source2[0], source2[2])

	def testJoinTails(self):
	"""Tests tails can be joined."""

	# 'a' -> 'c' 'a'
	# \
	# => 'c'
	# /
	# 'b' -> 'c' 'b'

	node4 = ( 'c', [ None ] )
	node3 = ( 'b', [ node4 ] )
	node2 = ( 'c', [ None ] )
	node1 = ( 'a', [ node2 ] )
	source1 = [ node1, node3 ]
	source2 = make_dafsa.join_suffixes(source1)

	# Both versions should expand to the same content.
	self.assertEqual(source1, source2)
	# But the new version should have just one tail.
	self.assertIs(source2[0][1][0], source2[1][1][0])

	def testMakeRecursiveTrie(self):
	"""Tests recursive suffix join."""

	# 'a' -> 'e' -> 'g' 'a'
	# \
	# 'e'
	# / \
	# 'b' -> 'e' -> 'g' 'b' \
	# \
	# => 'g'
	# /
	# 'c' -> 'f' -> 'g' 'c' /
	# \ /
	# 'f'
	# /
	# 'd' -> 'f' -> 'g' 'd'

	node7 = ( 'g', [ None ] )
	node6 = ( 'f', [ node7 ] )
	node5 = ( 'e', [ node7 ] )
	node4 = ( 'd', [ node6 ] )
	node3 = ( 'c', [ node6 ] )
	node2 = ( 'b', [ node5 ] )
	node1 = ( 'a', [ node5 ] )
	source1 = [ node1, node2, node3, node4 ]
	source2 = make_dafsa.join_suffixes(source1)

	# Both versions should expand to the same content.
	self.assertEqual(source1, source2)
	# But the new version should have just one 'e'.
	self.assertIs(source2[0][1][0], source2[1][1][0])
	# And one 'f'.
	self.assertIs(source2[2][1][0], source2[3][1][0])
	# And one 'g'.
	self.assertIs(source2[0][1][0][1][0], source2[2][1][0][1][0])

	def testMakeDiamond(self):
	"""Test we can join suffixes of a trie."""

	# 'b' -> 'd' 'b'
	# / / \
	# 'a' => 'a' 'd'
	# \ \ /
	# 'c' -> 'd' 'c'

	node5 = ( 'd', [ None ] )
	node4 = ( 'c', [ node5 ] )
	node3 = ( 'd', [ None ] )
	node2 = ( 'b', [ node3 ] )
	node1 = ( 'a', [ node2, node4 ] )
	source1 = [ node1 ]
	source2 = make_dafsa.join_suffixes(source1)

	# Both versions should expand to the same content.
	self.assertEqual(source1, source2)
	# But the new version should have just one 'd'.
	self.assertIs(source2[0][1][0][1][0], source2[0][1][1][1][0])

	def testJoinOneChild(self):
	"""Tests that we can join some children but not all."""

	# 'c' ----'c'
	# / / /
	# 'a' 'a' /
	# \ \ /
	# 'd' 'd'/
	# => /
	# 'c' /
	# / /
	# 'b' 'b'
	# \ \
	# 'e' 'e'

	node6 = ( 'e', [ None ] )
	node5 = ( 'c', [ None ] )
	node4 = ( 'b', [ node5, node6 ] )
	node3 = ( 'd', [ None ] )
	node2 = ( 'c', [ None ] )
	node1 = ( 'a', [ node2, node3 ] )
	source1 = [ node1, node4 ]
	source2 = make_dafsa.join_suffixes(source1)

	# Both versions should expand to the same content.
	self.assertEqual(source1, source2)
	# But the new version should have just one 'c'.
	self.assertIs(source2[0][1][0], source2[1][1][0])


	class ReverseTest(unittest.TestCase):
	def testAtomicLabel(self):
	"""Tests an atomic label passes unchanged."""

	# 'a' => 'a'

	node1 = ( 'a', [ None ] )
	source = [ node1 ]
	self.assertEqual(make_dafsa.reverse(source), source)

	def testLabel(self):
	"""Tests that labels are reversed."""

	# 'ab' => 'ba'

	node1 = ( 'ab', [ None ] )
	source1 = [ node1 ]
	node2 = ( 'ba', [ None ] )
	source2 = [ node2 ]
	self.assertEqual(make_dafsa.reverse(source1), source2)

	def testChain(self):
	"""Tests that edges are reversed."""

	# 'a' -> 'b' => 'b' -> 'a'

	node2 = ( 'b', [ None ] )
	node1 = ( 'a', [ node2 ] )
	source1 = [ node1 ]
	node4 = ( 'a', [ None ] )
	node3 = ( 'b', [ node4 ] )
	source2 = [ node3 ]
	self.assertEqual(make_dafsa.reverse(source1), source2)

	def testInnerTerminator(self):
	"""Tests a sequence with an inner terminator can be reversed."""

	# 'a' -> 'b' 'b' -> 'a'
	# \ => /
	# {sink} ------

	node2 = ( 'b', [ None ] )
	node1 = ( 'a', [ node2, None ] )
	source1 = [ node1 ]
	node4 = ( 'a', [ None ] )
	node3 = ( 'b', [ node4 ] )
	source2 = [ node3, node4 ]
	self.assertEqual(make_dafsa.reverse(source1), source2)

	def testAtomicTrie(self):
	"""Tests a trie formed DAFSA can be reversed."""

	# 'b' 'b'
	# / \
	# 'a' => 'a'
	# \ /
	# 'c' 'c'

	node3 = ( 'c', [ None ] )
	node2 = ( 'b', [ None ] )
	node1 = ( 'a', [ node2, node3 ] )
	source1 = [ node1 ]
	node6 = ( 'a', [ None ] )
	node5 = ( 'c', [ node6 ] )
	node4 = ( 'b', [ node6 ] )
	source2 = [ node4, node5 ]
	self.assertEqual(make_dafsa.reverse(source1), source2)

	def testReverseAtomicTrie(self):
	"""Tests a reverse trie formed DAFSA can be reversed."""

	# 'a' 'a'
	# \ /
	# 'c' => 'c'
	# / \
	# 'b' 'b'

	node3 = ( 'c', [ None ] )
	node2 = ( 'b', [ node3 ] )
	node1 = ( 'a', [ node3 ] )
	source1 = [ node1, node2 ]
	node6 = ( 'b', [ None ] )
	node5 = ( 'a', [ None ] )
	node4 = ( 'c', [ node5, node6 ] )
	source2 = [ node4 ]
	self.assertEqual(make_dafsa.reverse(source1), source2)

	def testDiamond(self):
	"""Tests we can reverse both edges and nodes in a diamond."""

	# 'cd' 'dc'
	# / \ / \
	# 'ab' 'gh' => 'hg' 'ba'
	# \ / \ /
	# 'ef' 'fe'

	node4 = ( 'gh', [ None ] )
	node3 = ( 'ef', [ node4 ] )
	node2 = ( 'cd', [ node4 ] )
	node1 = ( 'ab', [ node2, node3 ] )
	source1 = [ node1 ]
	node8 = ( 'ba', [ None ] )
	node7 = ( 'fe', [ node8 ] )
	node6 = ( 'dc', [ node8 ] )
	node5 = ( 'hg', [ node6, node7 ] )
	source2 = [ node5 ]
	self.assertEqual(make_dafsa.reverse(source1), source2)


	class TopSortTest(unittest.TestCase):
	def testNode(self):
	"""Tests a DAFSA with one node can be sorted."""

	# 'a' => [ 'a' ]

	node1 = ( 'a', [ None ] )
	source = [ node1 ]
	nodes = [ node1 ]
	self.assertEqual(make_dafsa.top_sort(source), nodes)

	def testDiamond(self):
	"""Tests nodes in a diamond can be sorted."""

	# 'b'
	# / \
	# 'a' 'd'
	# \ /
	# 'c'

	node4 = ( 'd', [ None ] )
	node3 = ( 'c', [ node4 ] )
	node2 = ( 'b', [ node4 ] )
	node1 = ( 'a', [ node2, node3 ] )
	source = [ node1 ]
	nodes = make_dafsa.top_sort(source)
	self.assertLess(nodes.index(node1), nodes.index(node2))
	self.assertLess(nodes.index(node2), nodes.index(node4))
	self.assertLess(nodes.index(node3), nodes.index(node4))


	class EncodePrefixTest(unittest.TestCase):
	def testChar(self):
	"""Tests to encode a single character prefix."""
	label = 'a'
	bytes = [ ord('a') ]
	self.assertEqual(make_dafsa.encode_prefix(label), bytes)

	def testChars(self):
	"""Tests to encode a multi character prefix."""
	label = 'ab'
	bytes = [ ord('b'), ord('a') ]
	self.assertEqual(make_dafsa.encode_prefix(label), bytes)


	class EncodeLabelTest(unittest.TestCase):
	def testChar(self):
	"""Tests to encode a single character label."""
	label = 'a'
	bytes = [ ord('a') + 0x80 ]
	self.assertEqual(make_dafsa.encode_label(label), bytes)

	def testChars(self):
	"""Tests to encode a multi character label."""
	label = 'ab'
	bytes = [ ord('b') + 0x80, ord('a') ]
	self.assertEqual(make_dafsa.encode_label(label), bytes)


	class EncodeLinksTest(unittest.TestCase):
	def testEndLabel(self):
	"""Tests to encode link to the sink."""
	children = [ None ]
	offsets = {}
	bytes = 0
	output = []
	self.assertEqual(make_dafsa.encode_links(children, offsets, bytes),
	output)

	def testOneByteOffset(self):
	"""Tests to encode a single one byte offset."""
	node = ( '', [ None ] )
	children = [ node ]
	offsets = { id(node) : 2 }
	bytes = 5
	output = [ 132 ]
	self.assertEqual(make_dafsa.encode_links(children, offsets, bytes),
	output)

	def testOneByteOffsets(self):
	"""Tests to encode a sequence of one byte offsets."""
	node1 = ( '', [ None ] )
	node2 = ( '', [ None ] )
	children = [ node1, node2 ]
	offsets = { id(node1) : 2, id(node2) : 1 }
	bytes = 5
	output = [ 129, 5 ]
	self.assertEqual(make_dafsa.encode_links(children, offsets, bytes),
	output)

	def testTwoBytesOffset(self):
	"""Tests to encode a single two byte offset."""
	node = ( '', [ None ] )
	children = [ node ]
	offsets = { id(node) : 2 }
	bytes = 1005
	output = [ 237, 195]
	self.assertEqual(make_dafsa.encode_links(children, offsets, bytes),
	output)

	def testTwoBytesOffsets(self):
	"""Tests to encode a sequence of two byte offsets."""
	node1 = ( '', [ None ] )
	node2 = ( '', [ None ] )
	node3 = ( '', [ None ] )
	children = [ node1, node2, node3 ]
	offsets = { id(node1) : 1002, id(node2) : 2, id(node3) : 2002 }
	bytes = 3005
	output = [ 232, 195, 232, 67, 241, 67 ]
	self.assertEqual(make_dafsa.encode_links(children, offsets, bytes),
	output)

	def testThreeBytesOffset(self):
	"""Tests to encode a single three byte offset."""
	node = ( '', [ None ] )
	children = [ node ]
	offsets = { id(node) : 2 }
	bytes = 100005
	output = [ 166, 134, 225 ]
	self.assertEqual(make_dafsa.encode_links(children, offsets, bytes),
	output)

	def testThreeBytesOffsets(self):
	"""Tests to encode a sequence of three byte offsets."""
	node1 = ( '', [ None ] )
	node2 = ( '', [ None ] )
	node3 = ( '', [ None ] )
	children = [ node1, node2, node3 ]
	offsets = { id(node1) : 100002, id(node2) : 2, id(node3) : 200002 }
	bytes = 300005
	output = [ 160, 134, 225, 160, 134, 97, 172, 134, 97 ]
	self.assertEqual(make_dafsa.encode_links(children, offsets, bytes),
	output)

	def testOneTwoThreeBytesOffsets(self):
	"""Tests to encode offsets of different sizes."""
	node1 = ( '', [ None ] )
	node2 = ( '', [ None ] )
	node3 = ( '', [ None ] )
	children = [ node1, node2, node3 ]
	offsets = { id(node1) : 10003, id(node2) : 10002, id(node3) : 100002 }
	bytes = 300005
	output = [ 129, 143, 95, 97, 74, 13, 99 ]
	self.assertEqual(make_dafsa.encode_links(children, offsets, bytes),
	output)


	class ExamplesTest(unittest.TestCase):
	def testExample1(self):
	"""Tests Example 1 from make_dafsa.py."""
	infile = [ '%%', 'aa, 1', 'a, 2', '%%' ]
	bytes = [ 0x81, 0xE1, 0x02, 0x81, 0x82, 0x61, 0x81 ]
	outfile = make_dafsa.to_cxx(bytes)
	self.assertEqual(make_dafsa.words_to_cxx(make_dafsa.parse_gperf(infile)),
	outfile)

	def testExample2(self):
	"""Tests Example 2 from make_dafsa.py."""
	infile = [ '%%', 'aa, 1', 'bbb, 2', 'baa, 1', '%%' ]
	bytes = [ 0x02, 0x83, 0xE2, 0x02, 0x83, 0x61, 0x61, 0x81, 0x62, 0x62,
	0x82 ]
	outfile = make_dafsa.to_cxx(bytes)
	self.assertEqual(make_dafsa.words_to_cxx(make_dafsa.parse_gperf(infile)),
	outfile)


	if __name__ == '__main__':
	unittest.main()