1. Georg Brandl
  2. pygments-main


pygments-main / tests / test_util.py

# -*- coding: utf-8 -*-
    Test suite for the util module

    :copyright: Copyright 2006-2012 by the Pygments team, see AUTHORS.
    :license: BSD, see LICENSE for details.

import re
import unittest

from pygments import util

class FakeLexer(object):
    def analyse(text):
        return float(text)
    analyse = util.make_analysator(analyse)

class UtilTest(unittest.TestCase):

    def test_getoptions(self):
        raises = self.assertRaises
        equals = self.assertEqual

        equals(util.get_bool_opt({}, 'a', True), True)
        equals(util.get_bool_opt({}, 'a', 1), True)
        equals(util.get_bool_opt({}, 'a', 'true'), True)
        equals(util.get_bool_opt({}, 'a', 'no'), False)
        raises(util.OptionError, util.get_bool_opt, {}, 'a', [])
        raises(util.OptionError, util.get_bool_opt, {}, 'a', 'foo')

        equals(util.get_int_opt({}, 'a', 1), 1)
        raises(util.OptionError, util.get_int_opt, {}, 'a', [])
        raises(util.OptionError, util.get_int_opt, {}, 'a', 'bar')

        equals(util.get_list_opt({}, 'a', [1]), [1])
        equals(util.get_list_opt({}, 'a', '1 2'), ['1', '2'])
        raises(util.OptionError, util.get_list_opt, {}, 'a', 1)

    def test_docstring_headline(self):
        def f1():
            docstring headline

            other text
        def f2():

            other text

        self.assertEqual(util.docstring_headline(f1), "docstring headline")
        self.assertEqual(util.docstring_headline(f2), "docstring headline")

    def test_analysator_returns_float(self):
        # If an analysator wrapped by make_analysator returns a floating point
        # number, then that number will be returned by the wrapper.
        self.assertEqual(FakeLexer.analyse('0.5'), 0.5)

    def test_analysator_returns_boolean(self):
        # If an analysator wrapped by make_analysator returns a boolean value,
        # then the wrapper will return 1.0 if the boolean was True or 0.0 if
        # it was False.
        self.assertEqual(FakeLexer.analyse(True), 1.0)
        self.assertEqual(FakeLexer.analyse(False), 0.0)

    def test_analysator_raises_exception(self):
        # If an analysator wrapped by make_analysator raises an exception,
        # then the wrapper will return 0.0.
        class ErrorLexer(object):
            def analyse(text):
                raise RuntimeError('something bad happened')
            analyse = util.make_analysator(analyse)
        self.assertEqual(ErrorLexer.analyse(''), 0.0)

    def test_analysator_value_error(self):
        # When converting the analysator's return value to a float a
        # ValueError may occur.  If that happens 0.0 is returned instead.
        self.assertEqual(FakeLexer.analyse('bad input'), 0.0)

    def test_analysator_type_error(self):
        # When converting the analysator's return value to a float a
        # TypeError may occur.  If that happens 0.0 is returned instead.
        self.assertEqual(FakeLexer.analyse(None), 0.0)

    def test_shebang_matches(self):
        self.assertTrue(util.shebang_matches('#!/usr/bin/env python', r'python(2\.\d)?'))
        self.assertTrue(util.shebang_matches('#!/usr/bin/python2.4', r'python(2\.\d)?'))
        self.assertTrue(util.shebang_matches('#!/usr/bin/startsomethingwith python',

        self.assertFalse(util.shebang_matches('#!/usr/bin/python-ruby', r'python(2\.\d)?'))
        self.assertFalse(util.shebang_matches('#!/usr/bin/python/ruby', r'python(2\.\d)?'))
        self.assertFalse(util.shebang_matches('#!', r'python'))

    def test_doctype_matches(self):
            '<!DOCTYPE html PUBLIC "a"> <html>', 'html.*'))
            '<?xml ?> <DOCTYPE html PUBLIC "a"> <html>', 'html.*'))
            '<?xml ?><!DOCTYPE html PUBLIC  "-//W3C//DTD XHTML 1.0 Strict//EN">'))

    def test_xml(self):
            '<?xml ?><!DOCTYPE html PUBLIC  "-//W3C//DTD XHTML 1.0 Strict//EN">'))
        self.assertTrue(util.looks_like_xml('<html xmlns>abc</html>'))

    def test_unirange(self):
        first_non_bmp = u'\U00010000'
        r = re.compile(util.unirange(0x10000, 0x20000))
        m = r.match(first_non_bmp)
        self.assertEquals(m.end(), len(first_non_bmp))
        # Tests that end is inclusive
        r = re.compile(util.unirange(0x10000, 0x10000) + '+')
        # Tests that the plus works for the entire unicode point, if narrow
        # build
        m = r.match(first_non_bmp * 2)
        self.assertEquals(m.end(), len(first_non_bmp) * 2)