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fonttools/Lib/fontTools/feaLib/lexer_test.py
Sascha Brawer 9ddd313577 [feaLib] Merged LexerError and ParserError 
This simplifies the public API to the library.  For clients, it does
not matter which exact component was detecting an error.  And we will
soon have more components; there would be little point in declaring
CompilerError, TableBuilderError, and so forth.
2015-09-07 11:39:09 +02:00

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from __future__ import print_function, division, absolute_import
from __future__ import unicode_literals
from fontTools.feaLib.error import FeatureLibError
from fontTools.feaLib.lexer import IncludingLexer, Lexer
import os
import unittest
def lex(s):
return [(typ, tok) for (typ, tok, _) in Lexer(s, "test.fea")]
class LexerTest(unittest.TestCase):
def __init__(self, methodName):
unittest.TestCase.__init__(self, methodName)
# Python 3 renamed assertRaisesRegexp to assertRaisesRegex,
# and fires deprecation warnings if a program uses the old name.
if not hasattr(self, "assertRaisesRegex"):
self.assertRaisesRegex = self.assertRaisesRegexp
def test_empty(self):
self.assertEqual(lex(""), [])
self.assertEqual(lex(" \t "), [])
def test_name(self):
self.assertEqual(lex("a17"), [(Lexer.NAME, "a17")])
self.assertEqual(lex(".notdef"), [(Lexer.NAME, ".notdef")])
self.assertEqual(lex("two.oldstyle"), [(Lexer.NAME, "two.oldstyle")])
self.assertEqual(lex("_"), [(Lexer.NAME, "_")])
self.assertEqual(lex("\\table"), [(Lexer.NAME, "\\table")])
def test_cid(self):
self.assertEqual(lex("\\0 \\987"), [(Lexer.CID, 0), (Lexer.CID, 987)])
def test_glyphclass(self):
self.assertEqual(lex("@Vowel.sc"), [(Lexer.GLYPHCLASS, "Vowel.sc")])
self.assertRaisesRegex(FeatureLibError,
"Expected glyph class", lex, "@(a)")
self.assertRaisesRegex(FeatureLibError,
"Expected glyph class", lex, "@ A")
self.assertRaisesRegex(FeatureLibError,
"not be longer than 30 characters",
lex, "@a123456789.a123456789.a123456789.x")
def test_include(self):
self.assertEqual(lex("include (~/foo/bar baz.fea);"), [
(Lexer.NAME, "include"),
(Lexer.FILENAME, "~/foo/bar baz.fea"),
(Lexer.SYMBOL, ";")
])
self.assertEqual(lex("include # Comment\n (foo) \n;"), [
(Lexer.NAME, "include"),
(Lexer.FILENAME, "foo"),
(Lexer.SYMBOL, ";")
])
self.assertRaises(FeatureLibError, lex, "include blah")
self.assertRaises(FeatureLibError, lex, "include (blah")
def test_number(self):
self.assertEqual(lex("123 -456"),
[(Lexer.NUMBER, 123), (Lexer.NUMBER, -456)])
self.assertEqual(lex("0xCAFED00D"), [(Lexer.NUMBER, 0xCAFED00D)])
self.assertEqual(lex("0xcafed00d"), [(Lexer.NUMBER, 0xCAFED00D)])
def test_symbol(self):
self.assertEqual(lex("a'"), [(Lexer.NAME, "a"), (Lexer.SYMBOL, "'")])
self.assertEqual(
lex("foo - -2"),
[(Lexer.NAME, "foo"), (Lexer.SYMBOL, "-"), (Lexer.NUMBER, -2)])
def test_comment(self):
self.assertEqual(lex("# Comment\n#"), [])
def test_string(self):
self.assertEqual(lex('"foo" "bar"'),
[(Lexer.STRING, "foo"), (Lexer.STRING, "bar")])
self.assertRaises(FeatureLibError, lambda: lex('"foo\n bar"'))
def test_bad_character(self):
self.assertRaises(FeatureLibError, lambda: lex("123 \u0001"))
def test_newline(self):
lines = lambda s: [loc[1] for (_, _, loc) in Lexer(s, "test.fea")]
self.assertEqual(lines("FOO\n\nBAR\nBAZ"), [1, 3, 4]) # Unix
self.assertEqual(lines("FOO\r\rBAR\rBAZ"), [1, 3, 4]) # Macintosh
self.assertEqual(lines("FOO\r\n\r\n BAR\r\nBAZ"), [1, 3, 4]) # Windows
self.assertEqual(lines("FOO\n\rBAR\r\nBAZ"), [1, 3, 4]) # mixed
def test_location(self):
locs = lambda s: ["%s:%d:%d" % loc
for (_, _, loc) in Lexer(s, "test.fea")]
self.assertEqual(locs("a b # Comment\n12 @x"), [
"test.fea:1:1", "test.fea:1:3", "test.fea:2:1",
"test.fea:2:4"
])
def test_scan_over_(self):
lexer = Lexer("abbacabba12", "test.fea")
self.assertEqual(lexer.pos_, 0)
lexer.scan_over_("xyz")
self.assertEqual(lexer.pos_, 0)
lexer.scan_over_("abc")
self.assertEqual(lexer.pos_, 9)
lexer.scan_over_("abc")
self.assertEqual(lexer.pos_, 9)
lexer.scan_over_("0123456789")
self.assertEqual(lexer.pos_, 11)
def test_scan_until_(self):
lexer = Lexer("foo'bar", "test.fea")
self.assertEqual(lexer.pos_, 0)
lexer.scan_until_("'")
self.assertEqual(lexer.pos_, 3)
lexer.scan_until_("'")
self.assertEqual(lexer.pos_, 3)
class IncludingLexerTest(unittest.TestCase):
@staticmethod
def getpath(filename):
path, _ = os.path.split(__file__)
return os.path.join(path, "testdata", filename)
def test_include(self):
lexer = IncludingLexer(self.getpath("include4.fea"))
result = ['%s %s:%d' % (token, os.path.split(loc[0])[1], loc[1])
for _, token, loc in lexer]
self.assertEqual(result, [
"I4a include4.fea:1",
"I3a include3.fea:1",
"I2a include2.fea:1",
"I1a include1.fea:1",
"I0 include0.fea:1",
"I1b include1.fea:3",
"I2b include2.fea:3",
"I3b include3.fea:3",
"I4b include4.fea:3"
])
def test_include_limit(self):
lexer = IncludingLexer(self.getpath("include6.fea"))
self.assertRaises(FeatureLibError, lambda: list(lexer))
def test_include_self(self):
lexer = IncludingLexer(self.getpath("includeself.fea"))
self.assertRaises(FeatureLibError, lambda: list(lexer))
def test_include_missing_file(self):
lexer = IncludingLexer(self.getpath("includemissingfile.fea"))
self.assertRaises(FeatureLibError, lambda: list(lexer))
if __name__ == "__main__":
unittest.main()
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