class TestCLexerErrors(unittest.TestCase):
""" Test lexing of erroneous strings.
Works by passing an error functions that saves the error
in an attribute for later perusal.
"""
def error_func(self, msg, line, column):
self.error = msg
def type_lookup_func(self, typ):
return False
def setUp(self):
self.clex = CLexer(self.error_func)
self.clex.build(optimize=False)
self.error = ""
def assertLexerError(self, str, error_like):
# feed the string to the lexer
self.clex.input(str)
# Pulls all tokens from the string. Errors will
# be written into self.error by the error_func
# callback
#
token_types(self.clex)
# compare the error to the expected
self.failUnless(re.search(error_like, self.error),
"\nExpected error matching: %s\nGot: %s" %
(error_like, self.error))
# clear last error, for the sake of subsequent invocations
self.error = ""
def test_trivial_tokens(self):
self.assertLexerError('@', ERR_ILLEGAL_CHAR)
self.assertLexerError('$', ERR_ILLEGAL_CHAR)
self.assertLexerError('`', ERR_ILLEGAL_CHAR)
self.assertLexerError('\\', ERR_ILLEGAL_CHAR)
def test_integer_constants(self):
self.assertLexerError('029', ERR_OCTAL)
self.assertLexerError('012345678', ERR_OCTAL)
def test_char_constants(self):
self.assertLexerError("'", ERR_UNMATCHED_QUOTE)
self.assertLexerError("'b\n", ERR_UNMATCHED_QUOTE)
self.assertLexerError("'jx'", ERR_INVALID_CCONST)
self.assertLexerError("'\*'", ERR_INVALID_CCONST)
self.assertLexerError("'\9'", ERR_INVALID_CCONST)
self.assertLexerError("L'\9'", ERR_INVALID_CCONST)
def test_string_literals(self):
self.assertLexerError('"jx\9"', ERR_STRING_ESCAPE)
self.assertLexerError('"hekllo\* on ix"', ERR_STRING_ESCAPE)
self.assertLexerError('L"hekllo\* on ix"', ERR_STRING_ESCAPE)
def test_preprocessor(self):
self.assertLexerError('#line "ka"', ERR_FILENAME_BEFORE_LINE)
self.assertLexerError('#line df', ERR_INVALID_LINE_DIRECTIVE)
self.assertLexerError('#line \n', ERR_LINENUM_MISSING)
def setUp(self):
self.clex = CLexer(self.error_func)
self.clex.build(optimize=False)
class TestCLexerNoErrors(unittest.TestCase):
""" Test lexing of strings that are not supposed to cause
errors. Therefore, the error_func passed to the lexer
raises an exception.
"""
def error_func(self, msg, line, column):
self.fail(msg)
def type_lookup_func(self, typ):
if typ.startswith('mytype'):
return True
else:
return False
def setUp(self):
self.clex = CLexer(self.error_func)
self.clex.build(optimize=False)
def assertTokensTypes(self, str, types):
self.clex.input(str)
self.assertEqual(token_types(self.clex), types)
def test_trivial_tokens(self):
self.assertTokensTypes('1', ['INT_CONST_DEC'])
self.assertTokensTypes('-', ['MINUS'])
#self.assertTokensTypes('...', ['ELLIPSIS'])
self.assertTokensTypes('++', ['PLUSPLUS'])
#self.assertTokensTypes('case int', ['CASE', 'INT'])
self.assertTokensTypes('caseint', ['ID'])
def test_id_typeid(self):
self.assertTokensTypes('myt', ['ID'])
self.assertTokensTypes('mytype', ['ID'])
self.assertTokensTypes('mytype6 var', ['ID', 'ID'])
def test_integer_constants(self):
self.assertTokensTypes('12', ['INT_CONST_DEC'])
self.assertTokensTypes('12u', ['INT_CONST_DEC'])
self.assertTokensTypes('199872Ul', ['INT_CONST_DEC'])
self.assertTokensTypes('077', ['INT_CONST_OCT'])
self.assertTokensTypes('0123456L', ['INT_CONST_OCT'])
self.assertTokensTypes('0xf7', ['INT_CONST_HEX'])
self.assertTokensTypes('0x01202AAbbf7Ul', ['INT_CONST_HEX'])
# no 0 before x, so ID catches it
self.assertTokensTypes('xf7', ['ID'])
# - is MINUS, the rest a constnant
self.assertTokensTypes('-1', ['MINUS', 'INT_CONST_DEC'])
def test_floating_constants(self):
self.assertTokensTypes('1.5f', ['FLOAT_CONST'])
self.assertTokensTypes('01.5', ['FLOAT_CONST'])
self.assertTokensTypes('.15L', ['FLOAT_CONST'])
self.assertTokensTypes('0.', ['FLOAT_CONST'])
# but just a period is a period
#self.assertTokensTypes('.', ['PERIOD'])
self.assertTokensTypes('3.3e-3', ['FLOAT_CONST'])
self.assertTokensTypes('.7e25L', ['FLOAT_CONST'])
self.assertTokensTypes('6.e+125f', ['FLOAT_CONST'])
self.assertTokensTypes('666e666', ['FLOAT_CONST'])
self.assertTokensTypes('00666e+3', ['FLOAT_CONST'])
# but this is a hex integer + 3
self.assertTokensTypes('0x0666e+3', ['INT_CONST_HEX', 'PLUS', 'INT_CONST_DEC'])
def test_char_constants(self):
self.assertTokensTypes(r"""'x'""", ['CHAR_CONST'])
#self.assertTokensTypes(r"""L'x'""", ['WCHAR_CONST'])
self.assertTokensTypes(r"""'\t'""", ['CHAR_CONST'])
self.assertTokensTypes(r"""'\''""", ['CHAR_CONST'])
self.assertTokensTypes(r"""'\?'""", ['CHAR_CONST'])
self.assertTokensTypes(r"""'\012'""", ['CHAR_CONST'])
self.assertTokensTypes(r"""'\x2f'""", ['CHAR_CONST'])
self.assertTokensTypes(r"""'\x2f12'""", ['CHAR_CONST'])
#self.assertTokensTypes(r"""L'\xaf'""", ['WCHAR_CONST'])
def test_string_literal(self):
self.assertTokensTypes('"a string"', ['STRING_LITERAL'])
#self.assertTokensTypes('L"ing"', ['WSTRING_LITERAL'])
self.assertTokensTypes(
'"i am a string too \t"',
['STRING_LITERAL'])
self.assertTokensTypes(
r'''"esc\ape \"\'\? \0234 chars \rule"''',
['STRING_LITERAL'])
self.assertTokensTypes(
r'''"hello 'joe' wanna give it a \"go\"?"''',
['STRING_LITERAL'])
def test_mess(self):
self.assertTokensTypes(
r'[{}]()',
['LBRACKET',
'LBRACE', 'RBRACE',
'RBRACKET',
'LPAREN', 'RPAREN'])
self.assertTokensTypes(
r'()|C&~ZJ',
['LPAREN', 'RPAREN',
'BOR',
'ID',
'BAND',
'BNOT', 'ID',])
self.assertTokensTypes(
r'+-*/%|||&&&^><>=<====',
['PLUS', 'MINUS', 'TIMES', 'DIVIDE', 'MOD',
'BOR', 'BOR', 'BOR', 'BAND', 'BAND', 'BAND',
'BXOR',
'GT', 'NE', 'EQUALS', 'LE', 'EQ', 'EQUALS'])
self.assertTokensTypes(
r'++--,;:',
['PLUSPLUS', 'MINUSMINUS',
'COMMA', 'SEMI', 'COLON'])
def test_exprs(self):
self.assertTokensTypes(
'bb-cc',
['ID', 'MINUS', 'ID'])
self.assertTokensTypes(
'foo & 0xFF',
['ID', 'BAND', 'INT_CONST_HEX'])
self.assertTokensTypes(
'(2+k) * 62',
['LPAREN', 'INT_CONST_DEC', 'PLUS', 'ID',
'RPAREN', 'TIMES', 'INT_CONST_DEC'],)
self.assertTokensTypes(
'x | y >> z',
['ID', 'BOR', 'ID', 'RSHIFT', 'ID'])
self.assertTokensTypes(
'x <<= z << 5',
['ID', 'LSHIFT', 'EQUALS', 'ID', 'LSHIFT', 'INT_CONST_DEC'])
self.assertTokensTypes(
'x = y > 0 y : -6',
['ID', 'EQUALS',
'ID', 'GT', 'INT_CONST_OCT',
'ID',
'COLON',
'MINUS', 'INT_CONST_DEC'])
self.assertTokensTypes(
'a+++b',
['ID', 'PLUSPLUS', 'PLUS', 'ID'])
def test_statements(self):
self.assertTokensTypes(
'for (int i = 0; i < n; ++i)endfor',
['FOR', 'LPAREN',
'ID', 'ID', 'EQUALS', 'INT_CONST_OCT', 'SEMI',
'ID', 'LT', 'ID', 'SEMI',
'PLUSPLUS', 'ID',
'RPAREN', 'ENDFOR'])
self.assertTokensTypes(
'self: goto self;',
['ID', 'COLON', 'GOTO', 'ID', 'SEMI'])
self.assertTokensTypes(
""" switch (typ)
case TYPE_ID:
m = 5;
break;
default:
m = 8;
endswitch
""",
['SWITCH', 'LPAREN', 'ID', 'RPAREN',
'CASE', 'ID', 'COLON',
'ID', 'EQUALS', 'INT_CONST_DEC', 'SEMI',
'BREAK', 'SEMI',
'DEFAULT', 'COLON',
'ID', 'EQUALS', 'INT_CONST_DEC', 'SEMI',
'ENDSWITCH'])
self.assertTokensTypes("""string function test(integer a)
if (a and b or not c) endif
endfunction
""", ['STRING', 'FUNCTION', 'ID', 'LPAREN','INTEGER', 'ID', 'RPAREN',
'IF', 'LPAREN', 'ID', 'AND', 'ID', 'OR', 'NOT', 'ID', 'RPAREN', 'ENDIF',
'ENDFUNCTION'])
def test_preprocessor(self):
self.assertTokensTypes('#abracadabra', ['PPHASH', 'ID'])
str = r"""
546
#line 66 "kwas\df.h"
id 4
dsf
# 9
armo
"""
#~ self.clex.filename
self.clex.input(str)
self.clex.reset_lineno()
t1 = self.clex.token()
self.assertEqual(t1.type, 'INT_CONST_DEC')
self.assertEqual(t1.lineno, 2)
t2 = self.clex.token()
self.assertEqual(t2.type, 'ID')
self.assertEqual(t2.value, 'id')
self.assertEqual(t2.lineno, 66)
self.assertEqual(self.clex.filename, r'kwas\df.h')
for i in xrange(3):
t = self.clex.token()
self.assertEqual(t.type, 'ID')
self.assertEqual(t.value, 'armo')
self.assertEqual(t.lineno, 9)
self.assertEqual(self.clex.filename, r'kwas\df.h')
