re2/testing/unicode_test.py - platform/external/regex-re2 - Git at Google

 #!/usr/bin/python2.4
 #
 # Copyright 2008 The RE2 Authors.  All Rights Reserved.
 # Use of this source code is governed by a BSD-style
 # license that can be found in the LICENSE file.

 """Unittest for the util/regexp/re2/unicode.py module."""

 import os
 import StringIO
 from google3.pyglib import flags
 from google3.testing.pybase import googletest
 from google3.util.regexp.re2 import unicode

 _UNICODE_DIR = os.path.join(flags.FLAGS.test_srcdir, "google3", "third_party",
                             "unicode", "ucd-5.1.0")


 class ConvertTest(googletest.TestCase):
   """Test the conversion functions."""

   def testUInt(self):
     self.assertEquals(0x0000, unicode._UInt("0000"))
     self.assertEquals(0x263A, unicode._UInt("263A"))
     self.assertEquals(0x10FFFF, unicode._UInt("10FFFF"))
     self.assertRaises(unicode.InputError, unicode._UInt, "263")
     self.assertRaises(unicode.InputError, unicode._UInt, "263AAAA")
     self.assertRaises(unicode.InputError, unicode._UInt, "110000")

   def testURange(self):
     self.assertEquals([1, 2, 3], unicode._URange("0001..0003"))
     self.assertEquals([1], unicode._URange("0001"))
     self.assertRaises(unicode.InputError, unicode._URange, "0001..0003..0005")
     self.assertRaises(unicode.InputError, unicode._URange, "0003..0001")
     self.assertRaises(unicode.InputError, unicode._URange, "0001..0001")

   def testUStr(self):
     self.assertEquals("0x263A", unicode._UStr(0x263a))
     self.assertEquals("0x10FFFF", unicode._UStr(0x10FFFF))
     self.assertRaises(unicode.InputError, unicode._UStr, 0x110000)
     self.assertRaises(unicode.InputError, unicode._UStr, -1)


 _UNICODE_TABLE = """# Commented line, should be ignored.
 # The next line is blank and should be ignored.

 0041;Capital A;Line 1
 0061..007A;Lowercase;Line 2
 1F00;<Greek, First>;Ignored
 1FFE;<Greek, Last>;Line 3
 10FFFF;Runemax;Line 4
 0000;Zero;Line 5
 """

 _BAD_TABLE1 = """
 111111;Not a code point;
 """

 _BAD_TABLE2 = """
 0000;<Zero, First>;Missing <Zero, Last>
 """

 _BAD_TABLE3 = """
 0010..0001;Bad range;
 """


 class AbortError(Exception):
   """Function should not have been called."""


 def Abort():
   raise AbortError("Abort")


 def StringTable(s, n, f):
   unicode.ReadUnicodeTable(StringIO.StringIO(s), n, f)


 class ReadUnicodeTableTest(googletest.TestCase):
   """Test the ReadUnicodeTable function."""

   def testSimpleTable(self):

     ncall = [0]  # can't assign to ordinary int in DoLine

     def DoLine(codes, fields):
       self.assertEquals(3, len(fields))
       ncall[0] += 1
       self.assertEquals("Line %d" % (ncall[0],), fields[2])
       if ncall[0] == 1:
         self.assertEquals([0x0041], codes)
         self.assertEquals("0041", fields[0])
         self.assertEquals("Capital A", fields[1])
       elif ncall[0] == 2:
         self.assertEquals(range(0x0061, 0x007A + 1), codes)
         self.assertEquals("0061..007A", fields[0])
         self.assertEquals("Lowercase", fields[1])
       elif ncall[0] == 3:
         self.assertEquals(range(0x1F00, 0x1FFE + 1), codes)
         self.assertEquals("1F00..1FFE", fields[0])
         self.assertEquals("Greek", fields[1])
       elif ncall[0] == 4:
         self.assertEquals([0x10FFFF], codes)
         self.assertEquals("10FFFF", fields[0])
         self.assertEquals("Runemax", fields[1])
       elif ncall[0] == 5:
         self.assertEquals([0x0000], codes)
         self.assertEquals("0000", fields[0])
         self.assertEquals("Zero", fields[1])

     StringTable(_UNICODE_TABLE, 3, DoLine)
     self.assertEquals(5, ncall[0])

   def testErrorTables(self):
     self.assertRaises(unicode.InputError, StringTable, _UNICODE_TABLE, 4, Abort)
     self.assertRaises(unicode.InputError, StringTable, _UNICODE_TABLE, 2, Abort)
     self.assertRaises(unicode.InputError, StringTable, _BAD_TABLE1, 3, Abort)
     self.assertRaises(unicode.InputError, StringTable, _BAD_TABLE2, 3, Abort)
     self.assertRaises(unicode.InputError, StringTable, _BAD_TABLE3, 3, Abort)


 class ParseContinueTest(googletest.TestCase):
   """Test the ParseContinue function."""

   def testParseContinue(self):
     self.assertEquals(("Private Use", "First"),
                       unicode._ParseContinue("<Private Use, First>"))
     self.assertEquals(("Private Use", "Last"),
                       unicode._ParseContinue("<Private Use, Last>"))
     self.assertEquals(("<Private Use, Blah>", None),
                       unicode._ParseContinue("<Private Use, Blah>"))


 class CaseGroupsTest(googletest.TestCase):
   """Test the CaseGroups function (and the CaseFoldingReader)."""

   def FindGroup(self, c):
     if type(c) == str:
       c = ord(c)
     for g in self.groups:
       if c in g:
         return g
     return None

   def testCaseGroups(self):
     self.groups = unicode.CaseGroups(unicode_dir=_UNICODE_DIR)
     self.assertEquals([ord("A"), ord("a")], self.FindGroup("a"))
     self.assertEquals(None, self.FindGroup("0"))


 class ScriptsTest(googletest.TestCase):
   """Test the Scripts function (and the ScriptsReader)."""

   def FindScript(self, c):
     if type(c) == str:
       c = ord(c)
     for script, codes in self.scripts.items():
       for code in codes:
         if c == code:
           return script
     return None

   def testScripts(self):
     self.scripts = unicode.Scripts(unicode_dir=_UNICODE_DIR)
     self.assertEquals("Latin", self.FindScript("a"))
     self.assertEquals("Common", self.FindScript("0"))
     self.assertEquals(None, self.FindScript(0xFFFE))


 class CategoriesTest(googletest.TestCase):
   """Test the Categories function (and the UnicodeDataReader)."""

   def FindCategory(self, c):
     if type(c) == str:
       c = ord(c)
     short = None
     for category, codes in self.categories.items():
       for code in codes:
         if code == c:
           # prefer category Nd over N
           if len(category) > 1:
             return category
           if short == None:
             short = category
     return short

   def testCategories(self):
     self.categories = unicode.Categories(unicode_dir=_UNICODE_DIR)
     self.assertEquals("Ll", self.FindCategory("a"))
     self.assertEquals("Nd", self.FindCategory("0"))
     self.assertEquals("Lo", self.FindCategory(0xAD00))  # in First, Last range
     self.assertEquals(None, self.FindCategory(0xFFFE))
     self.assertEquals("Lo", self.FindCategory(0x8B5A))
     self.assertEquals("Lo", self.FindCategory(0x6C38))
     self.assertEquals("Lo", self.FindCategory(0x92D2))
     self.assertTrue(ord("a") in self.categories["L"])
     self.assertTrue(ord("0") in self.categories["N"])
     self.assertTrue(0x8B5A in self.categories["L"])
     self.assertTrue(0x6C38 in self.categories["L"])
     self.assertTrue(0x92D2 in self.categories["L"])

 def main():
   googletest.main()

 if __name__ == "__main__":
   main()
	#!/usr/bin/python2.4
	#
	# Copyright 2008 The RE2 Authors. All Rights Reserved.
	# Use of this source code is governed by a BSD-style
	# license that can be found in the LICENSE file.

	"""Unittest for the util/regexp/re2/unicode.py module."""

	import os
	import StringIO
	from google3.pyglib import flags
	from google3.testing.pybase import googletest
	from google3.util.regexp.re2 import unicode

	_UNICODE_DIR = os.path.join(flags.FLAGS.test_srcdir, "google3", "third_party",
	"unicode", "ucd-5.1.0")


	class ConvertTest(googletest.TestCase):
	"""Test the conversion functions."""

	def testUInt(self):
	self.assertEquals(0x0000, unicode._UInt("0000"))
	self.assertEquals(0x263A, unicode._UInt("263A"))
	self.assertEquals(0x10FFFF, unicode._UInt("10FFFF"))
	self.assertRaises(unicode.InputError, unicode._UInt, "263")
	self.assertRaises(unicode.InputError, unicode._UInt, "263AAAA")
	self.assertRaises(unicode.InputError, unicode._UInt, "110000")

	def testURange(self):
	self.assertEquals([1, 2, 3], unicode._URange("0001..0003"))
	self.assertEquals([1], unicode._URange("0001"))
	self.assertRaises(unicode.InputError, unicode._URange, "0001..0003..0005")
	self.assertRaises(unicode.InputError, unicode._URange, "0003..0001")
	self.assertRaises(unicode.InputError, unicode._URange, "0001..0001")

	def testUStr(self):
	self.assertEquals("0x263A", unicode._UStr(0x263a))
	self.assertEquals("0x10FFFF", unicode._UStr(0x10FFFF))
	self.assertRaises(unicode.InputError, unicode._UStr, 0x110000)
	self.assertRaises(unicode.InputError, unicode._UStr, -1)


	_UNICODE_TABLE = """# Commented line, should be ignored.
	# The next line is blank and should be ignored.

	0041;Capital A;Line 1
	0061..007A;Lowercase;Line 2
	1F00;<Greek, First>;Ignored
	1FFE;<Greek, Last>;Line 3
	10FFFF;Runemax;Line 4
	0000;Zero;Line 5
	"""

	_BAD_TABLE1 = """
	111111;Not a code point;
	"""

	_BAD_TABLE2 = """
	0000;<Zero, First>;Missing <Zero, Last>
	"""

	_BAD_TABLE3 = """
	0010..0001;Bad range;
	"""


	class AbortError(Exception):
	"""Function should not have been called."""


	def Abort():
	raise AbortError("Abort")


	def StringTable(s, n, f):
	unicode.ReadUnicodeTable(StringIO.StringIO(s), n, f)


	class ReadUnicodeTableTest(googletest.TestCase):
	"""Test the ReadUnicodeTable function."""

	def testSimpleTable(self):

	ncall = [0] # can't assign to ordinary int in DoLine

	def DoLine(codes, fields):
	self.assertEquals(3, len(fields))
	ncall[0] += 1
	self.assertEquals("Line %d" % (ncall[0],), fields[2])
	if ncall[0] == 1:
	self.assertEquals([0x0041], codes)
	self.assertEquals("0041", fields[0])
	self.assertEquals("Capital A", fields[1])
	elif ncall[0] == 2:
	self.assertEquals(range(0x0061, 0x007A + 1), codes)
	self.assertEquals("0061..007A", fields[0])
	self.assertEquals("Lowercase", fields[1])
	elif ncall[0] == 3:
	self.assertEquals(range(0x1F00, 0x1FFE + 1), codes)
	self.assertEquals("1F00..1FFE", fields[0])
	self.assertEquals("Greek", fields[1])
	elif ncall[0] == 4:
	self.assertEquals([0x10FFFF], codes)
	self.assertEquals("10FFFF", fields[0])
	self.assertEquals("Runemax", fields[1])
	elif ncall[0] == 5:
	self.assertEquals([0x0000], codes)
	self.assertEquals("0000", fields[0])
	self.assertEquals("Zero", fields[1])

	StringTable(_UNICODE_TABLE, 3, DoLine)
	self.assertEquals(5, ncall[0])

	def testErrorTables(self):
	self.assertRaises(unicode.InputError, StringTable, _UNICODE_TABLE, 4, Abort)
	self.assertRaises(unicode.InputError, StringTable, _UNICODE_TABLE, 2, Abort)
	self.assertRaises(unicode.InputError, StringTable, _BAD_TABLE1, 3, Abort)
	self.assertRaises(unicode.InputError, StringTable, _BAD_TABLE2, 3, Abort)
	self.assertRaises(unicode.InputError, StringTable, _BAD_TABLE3, 3, Abort)


	class ParseContinueTest(googletest.TestCase):
	"""Test the ParseContinue function."""

	def testParseContinue(self):
	self.assertEquals(("Private Use", "First"),
	unicode._ParseContinue("<Private Use, First>"))
	self.assertEquals(("Private Use", "Last"),
	unicode._ParseContinue("<Private Use, Last>"))
	self.assertEquals(("<Private Use, Blah>", None),
	unicode._ParseContinue("<Private Use, Blah>"))


	class CaseGroupsTest(googletest.TestCase):
	"""Test the CaseGroups function (and the CaseFoldingReader)."""

	def FindGroup(self, c):
	if type(c) == str:
	c = ord(c)
	for g in self.groups:
	if c in g:
	return g
	return None

	def testCaseGroups(self):
	self.groups = unicode.CaseGroups(unicode_dir=_UNICODE_DIR)
	self.assertEquals([ord("A"), ord("a")], self.FindGroup("a"))
	self.assertEquals(None, self.FindGroup("0"))


	class ScriptsTest(googletest.TestCase):
	"""Test the Scripts function (and the ScriptsReader)."""

	def FindScript(self, c):
	if type(c) == str:
	c = ord(c)
	for script, codes in self.scripts.items():
	for code in codes:
	if c == code:
	return script
	return None

	def testScripts(self):
	self.scripts = unicode.Scripts(unicode_dir=_UNICODE_DIR)
	self.assertEquals("Latin", self.FindScript("a"))
	self.assertEquals("Common", self.FindScript("0"))
	self.assertEquals(None, self.FindScript(0xFFFE))


	class CategoriesTest(googletest.TestCase):
	"""Test the Categories function (and the UnicodeDataReader)."""

	def FindCategory(self, c):
	if type(c) == str:
	c = ord(c)
	short = None
	for category, codes in self.categories.items():
	for code in codes:
	if code == c:
	# prefer category Nd over N
	if len(category) > 1:
	return category
	if short == None:
	short = category
	return short

	def testCategories(self):
	self.categories = unicode.Categories(unicode_dir=_UNICODE_DIR)
	self.assertEquals("Ll", self.FindCategory("a"))
	self.assertEquals("Nd", self.FindCategory("0"))
	self.assertEquals("Lo", self.FindCategory(0xAD00)) # in First, Last range
	self.assertEquals(None, self.FindCategory(0xFFFE))
	self.assertEquals("Lo", self.FindCategory(0x8B5A))
	self.assertEquals("Lo", self.FindCategory(0x6C38))
	self.assertEquals("Lo", self.FindCategory(0x92D2))
	self.assertTrue(ord("a") in self.categories["L"])
	self.assertTrue(ord("0") in self.categories["N"])
	self.assertTrue(0x8B5A in self.categories["L"])
	self.assertTrue(0x6C38 in self.categories["L"])
	self.assertTrue(0x92D2 in self.categories["L"])

	def main():
	googletest.main()

	if __name__ == "__main__":
	main()