import unittest import hammer as h class TestTokenParser(unittest.TestCase): @classmethod def setUpClass(cls): cls.parser = h.h_token("95\xa2", 3) def test_success(self): self.assertEqual(h.h_parse(self.parser, "95\xa2", 3).ast.token_data.bytes, "95\xa2") def test_partial_fails(self): self.assertEqual(h.h_parse(self.parser, "95", 2), None) class TestChParser(unittest.TestCase): @classmethod def setUpClass(cls): cls.parser_int = h.h_ch(0xa2) cls.parser_chr = h.h_ch("\xa2") def test_success(self): self.assertEqual(h.h_parse(self.parser_int, "\xa2", 1).ast.token_data.uint, 0xa2) self.assertEqual(h.h_parse(self.parser_chr, "\xa2", 1).ast.token_data.uint, ord("\xa2")) def test_failure(self): self.assertEqual(h.h_parse(self.parser_int, "\xa3", 1), None) self.assertEqual(h.h_parse(self.parser_chr, "\xa3", 1), None) class TestChRange(unittest.TestCase): @classmethod def setUpClass(cls): cls.parser = h.h_ch_range("a", "c") def test_success(self): self.assertEqual(h.h_parse(self.parser, "b", 1).ast.token_data.uint, ord("b")) def test_failure(self): self.assertEqual(h.h_parse(self.parser, "d", 1), None) class TestInt64(unittest.TestCase): @classmethod def setUpClass(cls): cls.parser = h.h_int64() def test_success(self): self.assertEqual(h.h_parse(self.parser, "\xff\xff\xff\xfe\x00\x00\x00\x00", 8).ast.token_data.sint, -0x200000000) def test_failure(self): self.assertEqual(h.h_parse(self.parser, "\xff\xff\xff\xfe\x00\x00\x00", 7), None) class TestInt32(unittest.TestCase): @classmethod def setUpClass(cls): cls.parser = h.h_int32() def test_success(self): self.assertEqual(h.h_parse(self.parser, "\xff\xfe\x00\x00", 4).ast.token_data.sint, -0x20000) self.assertEqual(h.h_parse(self.parser, "\x00\x02\x00\x00", 4).ast.token_data.sint, 0x20000) def test_failure(self): self.assertEqual(h.h_parse(self.parser, "\xff\xfe\x00", 3), None) self.assertEqual(h.h_parse(self.parser, "\x00\x02\x00", 3), None) class TestInt16(unittest.TestCase): @classmethod def setUpClass(cls): cls.parser = h.h_int16() def test_success(self): self.assertEqual(h.h_parse(self.parser, "\xfe\x00", 2).ast.token_data.sint, -0x200) self.assertEqual(h.h_parse(self.parser, "\x02\x00", 2).ast.token_data.sint, 0x200) def test_failure(self): self.assertEqual(h.h_parse(self.parser, "\xfe", 1), None) self.assertEqual(h.h_parse(self.parser, "\x02", 1), None) class TestInt8(unittest.TestCase): @classmethod def setUpClass(cls): cls.parser = h.h_int8() def test_success(self): self.assertEqual(h.h_parse(self.parser, "\x88", 1).ast.token_data.sint, -0x78) def test_failure(self): self.assertEqual(h.h_parse(self.parser, "", 0), None) class TestUint64(unittest.TestCase): @classmethod def setUpClass(cls): cls.parser = h.h_uint64() def test_success(self): self.assertEqual(h.h_parse(self.parser, "\x00\x00\x00\x02\x00\x00\x00\x00", 8).ast.token_data.uint, 0x200000000) def test_failure(self): self.assertEqual(h.h_parse(self.parser, "\x00\x00\x00\x02\x00\x00\x00", 7), None) class TestUint32(unittest.TestCase): @classmethod def setUpClass(cls): cls.parser = h.h_uint32() def test_success(self): self.assertEqual(h.h_parse(self.parser, "\x00\x02\x00\x00", 4).ast.token_data.uint, 0x20000) def test_failure(self): self.assertEqual(h.h_parse(self.parser, "\x00\x02\x00", 3), None) class TestUint16(unittest.TestCase): @classmethod def setUpClass(cls): cls.parser = h.h_uint16() def test_success(self): self.assertEqual(h.h_parse(self.parser, "\x02\x00", 2).ast.token_data.uint, 0x200) def test_failure(self): self.assertEqual(h.h_parse(self.parser, "\x02", 1), None) class TestUint8(unittest.TestCase): @classmethod def setUpClass(cls): cls.parser = h.h_uint8() def test_success(self): self.assertEqual(h.h_parse(self.parser, "\x78", 1).ast.token_data.uint, 0x78) def test_failure(self): self.assertEqual(h.h_parse(self.parser, "", 0), None) class TestIntRange(unittest.TestCase): @classmethod def setUpClass(cls): cls.parser = h.h_int_range(h.h_uint8(), 3, 10) def test_success(self): self.assertEqual(h.h_parse(self.parser, "\x05", 1).ast.token_data.uint, 5) def test_failure(self): self.assertEqual(h.h_parse(self.parser, "\x0b", 1), None) class TestWhitespace(unittest.TestCase): @classmethod def setUpClass(cls): cls.parser = h.h_whitespace(h.h_ch("a")) def test_success(self): self.assertEqual(h.h_parse(self.parser, "a", 1).ast.token_data.uint, ord("a")) self.assertEqual(h.h_parse(self.parser, " a", 2).ast.token_data.uint, ord("a")) self.assertEqual(h.h_parse(self.parser, " a", 3).ast.token_data.uint, ord("a")) self.assertEqual(h.h_parse(self.parser, "\ta", 2).ast.token_data.uint, ord("a")) def test_failure(self): self.assertEqual(h.h_parse(self.parser, "_a", 2), None) class TestWhitespaceEnd(unittest.TestCase): @classmethod def setUpClass(cls): cls.parser = h.h_whitespace(h.h_end_p()) def test_success(self): self.assertEqual(h.h_parse(self.parser, "", 0).ast, None) # empty string self.assertEqual(h.h_parse(self.parser, " ", 2).ast, None) # empty string def test_failure(self): self.assertEqual(h.h_parse(self.parser, " x", 3), None) class TestLeft(unittest.TestCase): @classmethod def setUpClass(cls): cls.parser = h.h_left(h.h_ch("a"), h.h_ch(" ")) def test_success(self): self.assertEqual(h.h_parse(self.parser, "a ", 2).ast.token_data.uint, ord("a")) def test_failure(self): self.assertEqual(h.h_parse(self.parser, "a", 1), None) self.assertEqual(h.h_parse(self.parser, " ", 1), None) self.assertEqual(h.h_parse(self.parser, "ab", 2), None) class TestRight(unittest.TestCase): @classmethod def setUpClass(cls): cls.parser = h.h_right(h.h_ch(" "), h.h_ch("a")) def test_success(self): self.assertEqual(h.h_parse(self.parser, " a", 2).ast.token_data.uint, ord("a")) def test_failure(self): self.assertEqual(h.h_parse(self.parser, "a", 1), None) self.assertEqual(h.h_parse(self.parser, " ", 1), None) self.assertEqual(h.h_parse(self.parser, "ba", 2), None) class TestMiddle(unittest.TestCase): @classmethod def setUpClass(cls): cls.parser = h.h_middle(h.h_ch(" "), h.h_ch("a"), h.h_ch(" ")) def test_success(self): self.assertEqual(h.h_parse(self.parser, " a ", 3).ast.token_data.uint, ord("a")) def test_failure(self): self.assertEqual(h.h_parse(self.parser, "a", 1), None) self.assertEqual(h.h_parse(self.parser, " ", 1), None) self.assertEqual(h.h_parse(self.parser, " a", 2), None) self.assertEqual(h.h_parse(self.parser, "a ", 2), None) self.assertEqual(h.h_parse(self.parser, " b ", 3), None) self.assertEqual(h.h_parse(self.parser, "ba ", 3), None) self.assertEqual(h.h_parse(self.parser, " ab", 3), None) # class TestAction(unittest.TestCase): # @classmethod # def setUpClass(cls): # cls.parser = h.h_action(h.h_sequence__a([h.h_choice__a([h.h_ch("a"), h.h_ch("A"), None]), h.h_choice__a([h.h_ch("b"), h.h_ch("B"), None]), None]), lambda x: [y.upper() for y in x]) # def test_success(self): # self.assertEqual(h.h_parse(self.parser, "ab", 2).ast.token_data.seq, ["A", "B"]) # self.assertEqual(h.h_parse(self.parser, "AB", 2).ast.token_data.seq, ["A", "B"]) # def test_failure(self): # self.assertEqual(h.h_parse(self.parser, "XX", 2), None) class TestIn(unittest.TestCase): @classmethod def setUpClass(cls): cls.parser = h.h_in("abc", 3) def test_success(self): self.assertEqual(h.h_parse(self.parser, "b", 1).ast.token_data.uint, ord("b")) def test_failure(self): self.assertEqual(h.h_parse(self.parser, "d", 1), None) class TestNotIn(unittest.TestCase): @classmethod def setUpClass(cls): cls.parser = h.h_not_in("abc", 3) def test_success(self): self.assertEqual(h.h_parse(self.parser, "d", 1).ast.token_data.uint, ord("d")) def test_failure(self): self.assertEqual(h.h_parse(self.parser, "a", 1), None) class TestEndP(unittest.TestCase): @classmethod def setUpClass(cls): cls.parser = h.h_sequence__a([h.h_ch("a"), h.h_end_p(), None]) def test_success(self): self.assertEqual([x.token_data.uint for x in h.h_parse(self.parser, "a", 1).ast.token_data.seq], [ord(y) for y in ["a"]]) def test_failure(self): self.assertEqual(h.h_parse(self.parser, "aa", 2), None) class TestNothingP(unittest.TestCase): @classmethod def setUpClass(cls): cls.parser = h.h_nothing_p() def test_success(self): pass def test_failure(self): self.assertEqual(h.h_parse(self.parser, "a", 1), None) class TestSequence(unittest.TestCase): @classmethod def setUpClass(cls): cls.parser = h.h_sequence__a([h.h_ch("a"), h.h_ch("b"), None]) def test_success(self): self.assertEqual([x.token_data.uint for x in h.h_parse(self.parser, "ab", 2).ast.token_data.seq], [ord(y) for y in ["a", "b"]]) def test_failure(self): self.assertEqual(h.h_parse(self.parser, "a", 1), None) self.assertEqual(h.h_parse(self.parser, "b", 1), None) class TestSequenceWhitespace(unittest.TestCase): @classmethod def setUpClass(cls): cls.parser = h.h_sequence__a([h.h_ch("a"), h.h_whitespace(h.h_ch("b")), None]) def test_success(self): self.assertEqual([x.token_data.uint for x in h.h_parse(self.parser, "ab", 2).ast.token_data.seq], [ord(y) for y in ["a", "b"]]) self.assertEqual([x.token_data.uint for x in h.h_parse(self.parser, "a b", 3).ast.token_data.seq], [ord(y) for y in ["a", "b"]]) self.assertEqual([x.token_data.uint for x in h.h_parse(self.parser, "a b", 4).ast.token_data.seq], [ord(y) for y in ["a", "b"]]) def test_failure(self): self.assertEqual(h.h_parse(self.parser, "a c", 4), None) class TestChoice(unittest.TestCase): @classmethod def setUpClass(cls): cls.parser = h.h_choice__a([h.h_ch("a"), h.h_ch("b"), None]) def test_success(self): self.assertEqual(h.h_parse(self.parser, "a", 1).ast.token_data.uint, ord("a")) self.assertEqual(h.h_parse(self.parser, "b", 1).ast.token_data.uint, ord("b")) def test_failure(self): self.assertEqual(h.h_parse(self.parser, "c", 1), None) class TestButNot(unittest.TestCase): @classmethod def setUpClass(cls): cls.parser = h.h_butnot(h.h_ch("a"), h.h_token("ab", 2)) def test_success(self): self.assertEqual(h.h_parse(self.parser, "a", 1).ast.token_data.uint, ord("a")) self.assertEqual(h.h_parse(self.parser, "aa", 2).ast.token_data.uint, ord("a")) def test_failure(self): self.assertEqual(h.h_parse(self.parser, "ab", 2), None) class TestButNotRange(unittest.TestCase): @classmethod def setUpClass(cls): cls.parser = h.h_butnot(h.h_ch_range("0", "9"), h.h_ch("6")) def test_success(self): self.assertEqual(h.h_parse(self.parser, "4", 1).ast.token_data.uint, ord("4")) def test_failure(self): self.assertEqual(h.h_parse(self.parser, "6", 1), None) class TestDifference(unittest.TestCase): @classmethod def setUpClass(cls): cls.parser = h.h_difference(h.h_token("ab", 2), h.h_ch("a")) def test_success(self): self.assertEqual(h.h_parse(self.parser, "ab", 2).ast.token_data.bytes, "ab") def test_failure(self): self.assertEqual(h.h_parse(self.parser, "a", 1), None) class TestXor(unittest.TestCase): @classmethod def setUpClass(cls): cls.parser = h.h_xor(h.h_ch_range("0", "6"), h.h_ch_range("5", "9")) def test_success(self): self.assertEqual(h.h_parse(self.parser, "0", 1).ast.token_data.uint, ord("0")) self.assertEqual(h.h_parse(self.parser, "9", 1).ast.token_data.uint, ord("9")) def test_failure(self): self.assertEqual(h.h_parse(self.parser, "5", 1), None) self.assertEqual(h.h_parse(self.parser, "a", 1), None) class TestMany(unittest.TestCase): @classmethod def setUpClass(cls): cls.parser = h.h_many(h.h_choice__a([h.h_ch("a"), h.h_ch("b"), None])) def test_success(self): self.assertEqual(h.h_parse(self.parser, "", 0).ast.token_data.seq, []) self.assertEqual([x.token_data.uint for x in h.h_parse(self.parser, "a", 1).ast.token_data.seq], [ord(y) for y in ["a"]]) self.assertEqual([x.token_data.uint for x in h.h_parse(self.parser, "b", 1).ast.token_data.seq], [ord(y) for y in ["b"]]) self.assertEqual([x.token_data.uint for x in h.h_parse(self.parser, "aabbaba", 7).ast.token_data.seq], [ord(y) for y in ["a", "a", "b", "b", "a", "b", "a"]]) def test_failure(self): pass class TestMany1(unittest.TestCase): @classmethod def setUpClass(cls): cls.parser = h.h_many1(h.h_choice__a([h.h_ch("a"), h.h_ch("b"), None])) def test_success(self): self.assertEqual([x.token_data.uint for x in h.h_parse(self.parser, "a", 1).ast.token_data.seq], [ord(y) for y in ["a"]]) self.assertEqual([x.token_data.uint for x in h.h_parse(self.parser, "b", 1).ast.token_data.seq], [ord(y) for y in ["b"]]) self.assertEqual([x.token_data.uint for x in h.h_parse(self.parser, "aabbaba", 7).ast.token_data.seq], [ord(y) for y in ["a", "a", "b", "b", "a", "b", "a"]]) def test_failure(self): self.assertEqual(h.h_parse(self.parser, "", 0), None) self.assertEqual(h.h_parse(self.parser, "daabbabadef", 11), None) class TestRepeatN(unittest.TestCase): @classmethod def setUpClass(cls): cls.parser = h.h_repeat_n(h.h_choice__a([h.h_ch("a"), h.h_ch("b"), None]), 2) def test_success(self): self.assertEqual([x.token_data.uint for x in h.h_parse(self.parser, "abdef", 5).ast.token_data.seq], [ord(y) for y in ["a", "b"]]) def test_failure(self): self.assertEqual(h.h_parse(self.parser, "adef", 4), None) self.assertEqual(h.h_parse(self.parser, "dabdef", 5), None) class TestOptional(unittest.TestCase): @classmethod def setUpClass(cls): cls.parser = h.h_sequence__a([h.h_ch("a"), h.h_optional(h.h_choice__a([h.h_ch("b"), h.h_ch("c"), None])), h.h_ch("d"), None]) def test_success(self): self.assertEqual([x.token_data.uint for x in h.h_parse(self.parser, "abd", 3).ast.token_data.seq], [ord(y) for y in ["a", "b", "d"]]) self.assertEqual([x.token_data.uint for x in h.h_parse(self.parser, "acd", 3).ast.token_data.seq], [ord(y) for y in ["a", "c", "d"]]) ### FIXME check this out in repl, what does tree look like #self.assertEqual([x.token_data.uint for x in h.h_parse(self.parser, "ad", 2).ast.token_data.seq], [ord(y)["a", None, "d"]]) def test_failure(self): self.assertEqual(h.h_parse(self.parser, "aed", 3), None) self.assertEqual(h.h_parse(self.parser, "ab", 2), None) self.assertEqual(h.h_parse(self.parser, "ac", 2), None) class TestIgnore(unittest.TestCase): @classmethod def setUpClass(cls): cls.parser = h.h_sequence__a([h.h_ch("a"), h.h_ignore(h.h_ch("b")), h.h_ch("c"), None]) def test_success(self): self.assertEqual([x.token_data.uint for x in h.h_parse(self.parser, "abc", 3).ast.token_data.seq], [ord(y) for y in ["a", "c"]]) def test_failure(self): self.assertEqual(h.h_parse(self.parser, "ac", 2), None) class TestSepBy(unittest.TestCase): @classmethod def setUpClass(cls): cls.parser = h.h_sepBy(h.h_choice__a([h.h_ch("1"), h.h_ch("2"), h.h_ch("3"), None]), h.h_ch(",")) def test_success(self): self.assertEqual([x.token_data.uint for x in h.h_parse(self.parser, "1,2,3", 5).ast.token_data.seq], [ord(y) for y in ["1", "2", "3"]]) self.assertEqual([x.token_data.uint for x in h.h_parse(self.parser, "1,3,2", 5).ast.token_data.seq], [ord(y) for y in ["1", "3", "2"]]) self.assertEqual([x.token_data.uint for x in h.h_parse(self.parser, "1,3", 3).ast.token_data.seq], [ord(y) for y in ["1", "3"]]) self.assertEqual([x.token_data.uint for x in h.h_parse(self.parser, "3", 1).ast.token_data.seq], [ord(y) for y in ["3"]]) self.assertEqual(h.h_parse(self.parser, "", 0).ast.token_data.seq, []) def test_failure(self): pass class TestSepBy1(unittest.TestCase): @classmethod def setUpClass(cls): cls.parser = h.h_sepBy1(h.h_choice__a([h.h_ch("1"), h.h_ch("2"), h.h_ch("3"), None]), h.h_ch(",")) def test_success(self): self.assertEqual([x.token_data.uint for x in h.h_parse(self.parser, "1,2,3", 5).ast.token_data.seq], [ord(y) for y in ["1", "2", "3"]]) self.assertEqual([x.token_data.uint for x in h.h_parse(self.parser, "1,3,2", 5).ast.token_data.seq], [ord(y) for y in ["1", "3", "2"]]) self.assertEqual([x.token_data.uint for x in h.h_parse(self.parser, "1,3", 3).ast.token_data.seq], [ord(y) for y in ["1", "3"]]) self.assertEqual([x.token_data.uint for x in h.h_parse(self.parser, "3", 1).ast.token_data.seq], [ord(y) for y in ["3"]]) def test_failure(self): self.assertEqual(h.h_parse(self.parser, "", 0), None) ### segfaults class TestEpsilonP1(unittest.TestCase): @classmethod def setUpClass(cls): cls.parser = h.h_sequence__a([h.h_ch("a"), h.h_epsilon_p(), h.h_ch("b"), None]) def test_success(self): self.assertEqual([x.token_data.uint for x in h.h_parse(self.parser, "ab", 2).ast.token_data.seq], [ord(y) for y in ["a", "b"]]) def test_failure(self): pass class TestEpsilonP2(unittest.TestCase): @classmethod def setUpClass(cls): cls.parser = h.h_sequence__a([h.h_epsilon_p(), h.h_ch("a"), None]) def test_success(self): self.assertEqual([x.token_data.uint for x in h.h_parse(self.parser, "a", 1).ast.token_data.seq], [ord(y) for y in ["a"]]) def test_failure(self): pass class TestEpsilonP3(unittest.TestCase): @classmethod def setUpClass(cls): cls.parser = h.h_sequence__a([h.h_ch("a"), h.h_epsilon_p(), None]) def test_success(self): self.assertEqual([x.token_data.uint for x in h.h_parse(self.parser, "a", 1).ast.token_data.seq], [ord(y) for y in ["a"]]) def test_failure(self): pass # class TestAttrBool(unittest.TestCase): # @classmethod # def setUpClass(cls): # cls.parser = h.h_attr_bool(h.h_many1(h.h_choice__a([h.h_ch("a"), h.h_ch("b"), None])), lambda x: x[0] == x[1]) # def test_success(self): # self.assertEqual(h.h_parse(self.parser, "aa", 2).ast.token_data.seq, ["a", "a"]) # self.assertEqual(h.h_parse(self.parser, "bb", 2).ast.token_data.seq, ["b", "b"]) # def test_failure(self): # self.assertEqual(h.h_parse(self.parser, "ab", 2), None) class TestAnd1(unittest.TestCase): @classmethod def setUpClass(cls): cls.parser = h.h_sequence__a([h.h_and(h.h_ch("0")), h.h_ch("0"), None]) def test_success(self): self.assertEqual([x.token_data.uint for x in h.h_parse(self.parser, "0", 1).ast.token_data.seq], [ord(y) for y in ["0"]]) def test_failure(self): pass class TestAnd2(unittest.TestCase): @classmethod def setUpClass(cls): cls.parser = h.h_sequence__a([h.h_and(h.h_ch("0")), h.h_ch("1"), None]) def test_success(self): pass def test_failure(self): self.assertEqual(h.h_parse(self.parser, "0", 1), None) class TestAnd3(unittest.TestCase): @classmethod def setUpClass(cls): cls.parser = h.h_sequence__a([h.h_ch("1"), h.h_and(h.h_ch("2")), None]) def test_success(self): self.assertEqual([x.token_data.uint for x in h.h_parse(self.parser, "12", 2).ast.token_data.seq], [ord(y) for y in ["1"]]) def test_failure(self): pass class TestNot1(unittest.TestCase): @classmethod def setUpClass(cls): cls.parser = h.h_sequence__a([h.h_ch("a"), h.h_choice__a([h.h_ch("+"), h.h_token("++", 2), None]), h.h_ch("b"), None]) def test_success(self): self.assertEqual([x.token_data.uint for x in h.h_parse(self.parser, "a+b", 3).ast.token_data.seq], [ord(y) for y in ["a", "+", "b"]]) def test_failure(self): self.assertEqual(h.h_parse(self.parser, "a++b", 4), None) class TestNot2(unittest.TestCase): @classmethod def setUpClass(cls): cls.parser = h.h_sequence__a([h.h_ch("a"), h.h_choice__a([h.h_sequence__a([h.h_ch("+"), h.h_not(h.h_ch("+")), None]), h.h_token("++", 2), None]), h.h_ch("b"), None]) def test_success(self): tree = h.h_parse(self.parser, "a+b", 3).ast.token_data.seq tree[1] = tree[1].token_data.seq[0] self.assertEqual([x.token_data.uint for x in tree], [ord(y) for y in ["a", "+", "b"]]) tree = h.h_parse(self.parser, "a++b", 4).ast.token_data.seq tree[0] = chr(tree[0].token_data.uint) tree[1] = tree[1].token_data.bytes tree[2] = chr(tree[2].token_data.uint) self.assertEqual(tree, ["a", "++", "b"]) def test_failure(self): pass # ### this is commented out for packrat in C ... # #class TestLeftrec(unittest.TestCase): # # @classmethod # # def setUpClass(cls): # # cls.parser = h.h_indirect() # # a = h.h_ch("a") # # h.h_bind_indirect(cls.parser, h.h_choice(h.h_sequence(cls.parser, a), a)) # # def test_success(self): # # self.assertEqual(h.h_parse(self.parser, "a", 1).ast.token_data.bytes, "a") # # self.assertEqual(h.h_parse(self.parser, "aa", 2).ast.token_data.seq, ["a", "a"]) # # self.assertEqual(h.h_parse(self.parser, "aaa", 3).ast.token_data.seq, ["a", "a", "a"]) # # def test_failure(self): # # pass class TestRightrec(unittest.TestCase): @classmethod def setUpClass(cls): cls.parser = h.h_indirect() a = h.h_ch("a") h.h_bind_indirect(cls.parser, h.h_choice__a([h.h_sequence__a([a, cls.parser, None]), h.h_epsilon_p(), None])) def test_success(self): tree = h.h_parse(self.parser, "a", 1).ast.token_data.seq self.assertEqual(tree[0].token_data.uint, ord("a")) tree = h.h_parse(self.parser, "aa", 2).ast.token_data.seq self.assertEqual(tree[0].token_data.uint, ord("a")) self.assertEqual(tree[1].token_data.seq[0].token_data.uint, ord("a")) tree = h.h_parse(self.parser, "aaa", 3).ast.token_data.seq self.assertEqual(tree[0].token_data.uint, ord("a")) self.assertEqual(tree[1].token_data.seq[0].token_data.uint, ord("a")) self.assertEqual(tree[1].token_data.seq[1].token_data.seq[0].token_data.uint, ord("a")) def test_failure(self): pass # ### this is just for GLR # #class TestAmbiguous(unittest.TestCase): # # @classmethod # # def setUpClass(cls): # # cls.parser = h.h_indirect() # # d = h.h_ch("d") # # p = h.h_ch("+") # # h.h_bind_indirect(cls.parser, h.h_choice(h.h_sequence(cls.parser, p, cls.parser), d)) # # # this is supposed to be flattened # # def test_success(self): # # self.assertEqual(h.h_parse(self.parser, "d", 1).ast.token_data.seq, ["d"]) # # self.assertEqual(h.h_parse(self.parser, "d+d", 3).ast.token_data.seq, ["d", "+", "d"]) # # self.assertEqual(h.h_parse(self.parser, "d+d+d", 5).ast.token_data.seq, ["d", "+", "d", "+", "d"]) # # def test_failure(self): # # self.assertEqual(h.h_parse(self.parser, "d+", 2), None)