def testOrdinal2word(self):
testList = self.testDict["ordinal"]
for i, (t, gt) in enumerate(testList):
tList = t.split(" ")
gt = " ".join(gt.split(" ")[1:])
r = NumberFormula._ordinal2word(tList, 1)
self.assertEqual(gt, r, "%s is not %s" % (r, gt))
def test_apply(self):
f = NumberFormula()
for k in list(self.testDict.keys()):
# print "Testing %s " % k
testList = self.testDict[k]
self.evaluateListValues(testList, f.apply)
def test_isOrdinal(self):
testList = [("1.", True), ("3.", True), ("8.", True), ("2.", True),
("10.", True), ("I.", False), ("XII.", True),
("017688088605", False)]
for t, gt in testList:
self.assertEqual(NumberFormula._isOrdinalNumber(t), gt, t)
def test_isDecimal(self):
testList = [(u"2.5", True), (u"2,5", True), (u"2,5,3", True),
(u"2-5", False)]
for t, gt in testList:
self.assertEquals(NumberFormula._isDecimalNumber(t), gt,
t.encode('utf-8'))
def test_isOrdinal(self):
testList = [(u"1.", True), (u"3.", True), (u"8.", True), (u"2.", True),
(u"10.", True), (u"I.", False), (u"XII.", True)]
for t, gt in testList:
self.assertEquals(NumberFormula._isOrdinalNumber(t), gt,
t.encode('utf-8'))
def testOrdinal2word(self):
testList = self.testDict["ordinal"]
for i, (t, gt) in enumerate(testList):
tList = t.split(" ")
gt = u" ".join(gt.split(" ")[1:])
r = NumberFormula._ordinal2word(tList, 1)
self.assertEquals(gt.encode('utf-8'), r.encode('utf-8'),
"%s is not %s" % (r.encode('utf-8'), gt.encode('utf-8')))
def testOrdinal2word(self):
testList = self.testDict["ordinal"]
for i, (t, gt) in enumerate(testList):
tList = t.split(" ")
gt = u" ".join(gt.split(" ")[1:])
r = NumberFormula._ordinal2word(tList, 1)
self.assertEquals(
gt.encode('utf-8'), r.encode('utf-8'),
"%s is not %s" % (r.encode('utf-8'), gt.encode('utf-8')))
def isOrdinalNumber(strWord, languageId):
"""Cross language check for ordinal number.
"""
bOrdinal = False
if languageId == 0:
if EnglishNumberFormula._isOrdinalNumber(strWord) or \
GermanNumberFormula._isOrdinalNumber(strWord) or \
FrenchNumberFormula._isOrdinalNumber(strWord):
bOrdinal = True
else:
if languageId == FRENCH:
bOrdinal = FrenchNumberFormula._isOrdinalNumber(strWord)
elif languageId == GERMAN:
bOrdinal = GermanNumberFormula._isOrdinalNumber(strWord)
else:
bOrdinal = EnglishNumberFormula._isOrdinalNumber(strWord)
return bOrdinal
def test_isDecimal(self):
testList = [("2.5", True), ("2,5", True), ("2,5,3", True),
("2-5", False)]
for t, gt in testList:
self.assertEqual(NumberFormula._isDecimalNumber(t), gt, t)
def test_isRoman(self):
testList = [("V", False), ("XII", True)]
for t, gt in testList:
self.assertEqual(NumberFormula._isRomanNumber(t), gt, t)
def test_isCardinal(self):
testList = [("2", True), ("123", True), ("123.", False)]
for t, gt in testList:
self.assertEqual(NumberFormula._isCardinalNumber(t), gt, t)
def test_isOrdinal(self):
testList = [(u"1.",True), (u"3.",True), (u"8.",True), (u"2.",True), (u"10.",True),
(u"I.",False),(u"XII.",True)]
for t, gt in testList:
self.assertEquals(NumberFormula._isOrdinalNumber(t), gt, t.encode('utf-8'))
def test_isDecimal(self):
testList = [(u"2.5",True), (u"2,5",True),(u"2,5,3",True), (u"2-5",False)]
for t, gt in testList:
self.assertEquals(NumberFormula._isDecimalNumber(t), gt, t.encode('utf-8'))
def test_isRoman(self):
testList = [(u"V",False), (u"XII",True)]
for t, gt in testList:
self.assertEquals(NumberFormula._isRomanNumber(t), gt, t.encode('utf-8'))
def test_isRoman(self):
testList = [(u"V", False), (u"XII", True)]
for t, gt in testList:
self.assertEquals(NumberFormula._isRomanNumber(t), gt,
t.encode('utf-8'))
def test_isCardinal(self):
testList = [(u"2", True), (u"123", True), (u"123.", False)]
for t, gt in testList:
self.assertEquals(NumberFormula._isCardinalNumber(t), gt,
t.encode('utf-8'))
def test_isCardinal(self):
testList = [(u"2",True),(u"123",True), (u"123.",False)]
for t, gt in testList:
self.assertEquals(NumberFormula._isCardinalNumber(t), gt, t.encode('utf-8'))
