Poodletooth-iLand/otp/namepanel/NameCheck.py

import string
from otp.otpbase import OTPLocalizer
from direct.directnotify import DirectNotifyGlobal
from pandac.PandaModules import NSError
from pandac.PandaModules import TextEncoder, TextNode
notify = DirectNotifyGlobal.directNotify.newCategory('NameCheck')

def filterString(str, filter):
    result = ''
    for char in str:
        if char in filter:
            result = result + char

    return result


def justLetters(str):
    letters = ''
    for c in str:
        if c.isalpha():
            letters = letters + c

    return letters


def justUpper(str):
    upperCaseLetters = ''
    for c in str:
        if c.upper() != c.lower():
            if c == c.upper():
                upperCaseLetters = upperCaseLetters + c

    return upperCaseLetters


def wordList(str):
    words = str.split()
    result = []
    for word in words:
        subWords = word.split('-')
        for sw in subWords:
            if sw:
                result.append(sw)

    return result


def checkName(name, otherCheckFuncs = [], font = None):

    def longEnough(name):
        if len(name) < 2:
            notify.info('name is too short')
            return OTPLocalizer.NCTooShort

    def emptyName(name):
        if name.strip() == '':
            notify.info('name is empty')
            return OTPLocalizer.NCTooShort

    def printableChars(name):
        for char in name:
            if ord(char) < 128 and char not in string.printable:
                notify.info('name contains non-printable char #%s' % ord(char))
                return OTPLocalizer.NCGeneric

    validAsciiChars = set(".,'-" + string.letters + string.whitespace)

    def _validCharacter(c, validAsciiChars = validAsciiChars, font = font):
        if c in validAsciiChars:
            return True
        if c.isalpha() or c.isspace():
            return True
        return False

    def badCharacters(name, _validCharacter = _validCharacter):
        for char in name:
            if not _validCharacter(char):
                if char in string.digits:
                    notify.info('name contains digits')
                    return OTPLocalizer.NCNoDigits
                else:
                    notify.info('name contains bad char: %s' % TextEncoder().encodeWtext(char))
                    return OTPLocalizer.NCBadCharacter % TextEncoder().encodeWtext(char)

    def fontHasCharacters(name, font = font):
        if font:
            tn = TextNode('NameCheck')
            tn.setFont(font)
            for c in name:
                if not tn.hasCharacter(ord(c)):
                    notify.info('name contains bad char: %s' % TextEncoder().encodeWtext(c))
                    return OTPLocalizer.NCBadCharacter % TextEncoder().encodeWtext(c)

    def hasLetters(name):
        words = wordList(name)
        for word in words:
            letters = justLetters(word)
            if len(letters) == 0:
                notify.info('word "%s" has no letters' % TextEncoder().encodeWtext(word))
                return OTPLocalizer.NCNeedLetters

    def hasVowels(name):

        def perWord(word):
            if '.' in word:
                return None
            for char in word:
                if ord(char) >= 128:
                    return None

            letters = filterString(word, string.letters)
            if len(letters) > 2:
                vowels = filterString(letters, 'aeiouyAEIOUY')
                if len(vowels) == 0:
                    notify.info('word "%s" has no vowels' % TextEncoder().encodeWtext(word))
                    return OTPLocalizer.NCNeedVowels
            return None

        for word in wordList(name):
            problem = perWord(word)
            if problem:
                return problem

    def monoLetter(name):

        def perWord(word):
            word = word
            letters = justLetters(word)
            if len(letters) > 2:
                letters = TextEncoder().decodeText(TextEncoder.lower(TextEncoder().encodeWtext(letters)))
                filtered = filterString(letters, letters[0])
                if filtered == letters:
                    notify.info('word "%s" uses only one letter' % TextEncoder().encodeWtext(word))
                    return OTPLocalizer.NCGeneric

        for word in wordList(name):
            problem = perWord(word)
            if problem:
                return problem

    def checkDashes(name):
        def validDash(index, name=name):
            if index == 0 or i == len(name)-1:
                return 0
            if not name[i-1].isalpha():
                return 0
            if not name[i+1].isalpha():
                return 0
            return 1

        i=0
        while 1:
            i = name.find('-', i, len(name))
            if i < 0:
                return None
            if not validDash(i):
                notify.info('name makes invalid use of dashes')
                return OTPLocalizer.NCDashUsage
            i += 1

    def checkCommas(name):
        def validComma(index, name=name):
            if index == 0 or i == len(name)-1:
                return OTPLocalizer.NCCommaEdge
            if name[i-1].isspace():
                return OTPLocalizer.NCCommaAfterWord
            if not name[i+1].isspace():
                return OTPLocalizer.NCCommaUsage
            return None

        i=0
        while 1:
            i = name.find(',', i, len(name))
            if i < 0:
                return None
            problem = validComma(i)
            if problem:
                notify.info('name makes invalid use of commas')
                return problem
            i += 1

    def checkPeriods(name):
        words = wordList(name)
        for word in words:
            if word[-1] == ',':
                word = word[:-1]
            numPeriods = word.count('.')
            if not numPeriods:
                continue
            letters = justLetters(word)
            numLetters = len(letters)
            if word[-1] != '.':
                notify.info('word "%s" does not end in a period' % TextEncoder().encodeWtext(word))
                return OTPLocalizer.NCPeriodUsage
            if numPeriods > 2:
                notify.info('word "%s" has too many periods' % TextEncoder().encodeWtext(word))
                return OTPLocalizer.NCPeriodUsage
            if numPeriods == 2:
                if not (word[1] == '.' and word[3] == '.'):
                    notify.info('word "%s" does not fit the J.T. pattern' % TextEncoder().encodeWtext(word))
                    return OTPLocalizer.NCPeriodUsage

        return None

    def checkApostrophes(name):
        words = wordList(name)
        for word in words:
            numApos = word.count("'")
            if numApos > 2:
                notify.info('word "%s" has too many apostrophes.' % TextEncoder().encodeWtext(word))
                return OTPLocalizer.NCApostrophes

        numApos = name.count("'")
        if numApos > 3:
            notify.info('name has too many apostrophes.')
            return OTPLocalizer.NCApostrophes

    def tooManyWords(name):
        if len(wordList(name)) > 4:
            notify.info('name has too many words')
            return OTPLocalizer.NCTooManyWords

    def allCaps(name):
        letters = justLetters(name)
        if len(letters) > 2:
            upperLetters = TextEncoder().decodeText(TextEncoder.upper(TextEncoder().encodeWtext(letters)))
            for i in xrange(len(upperLetters)):
                if not upperLetters[0].isupper():
                    return

            if upperLetters == letters:
                notify.info('name is all caps')
                return OTPLocalizer.NCAllCaps

    def mixedCase(name):
        words = wordList(name)
        for word in words:
            if len(word) > 2:
                capitals = justUpper(word)
                if len(capitals) > 2:
                    notify.info('name has mixed case')
                    return OTPLocalizer.NCMixedCase

    def checkJapanese(name):
        asciiSpace = range(32, 33)
        asciiDigits = range(48, 64)
        hiragana = range(12353, 12448)
        katakana = range(12449, 12544)
        halfwidthKatakana = range(65381, 65440)
        halfwidthCharacter = set(asciiSpace + halfwidthKatakana)
        allowedUtf8 = set(asciiSpace + hiragana + katakana + halfwidthKatakana)

        te = TextEncoder()
        dc = 0.0

        for char in (ord(char) for char in te.decodeText(name)):
            if char not in allowedUtf8:
                if char in asciiDigits:
                    notify.info('name contains not allowed ascii digits')
                    return OTPLocalizer.NCNoDigits
                else:
                    notify.info('name contains not allowed utf8 char: 0x%04x' % char)
                    return OTPLocalizer.NCBadCharacter % te.encodeWtext(unichr(char))
            elif char in halfwidthCharacter:
                dc += 0.5
            else:
                dc += 1

        if dc < 2:
            notify.info('name is too short: %0.1f' % dc)
            return OTPLocalizer.NCTooShort
        elif dc > 8:
            notify.info('name has been occupied more than eight display cells: %0.1f' % dc)
            return OTPLocalizer.NCGeneric

    def repeatedChars(name):
        count = 1
        lastChar = None
        i = 0
        while i < len(name):
            char = name[i]
            i += 1
            if char == lastChar:
                count += 1
            else:
                count = 1
            lastChar = char
            if count > 2:
                notify.info('character %s is repeated too many times' % TextEncoder().encodeWtext(char))
                return OTPLocalizer.NCRepeatedChar % TextEncoder().encodeWtext(char)

        return

    checks = [printableChars,
     badCharacters,
     fontHasCharacters,
     longEnough,
     emptyName,
     hasLetters,
     hasVowels,
     monoLetter,
     checkDashes,
     checkCommas,
     checkPeriods,
     checkApostrophes,
     tooManyWords,
     allCaps,
     mixedCase,
     repeatedChars] + otherCheckFuncs
    symmetricChecks = []
    name = TextEncoder().decodeText(name)
    notify.info('checking name "%s"...' % TextEncoder().encodeWtext(name))
    for check in checks:
        problem = check(name[:])
        if not problem and check in symmetricChecks:
            nName = name[:]
            bName.reverse()
            problem = check(bName)
            print 'problem = %s' % problem
        if problem:
            return problem

    return None


severity = notify.getSeverity()
notify.setSeverity(NSError)
for i in xrange(32):
    pass

for c in '!"#$%&()*+/:;<=>?@[\\]^_`{|}~':
    pass

notify.setSeverity(severity)
del severity
Initial commit 2015-03-03 22:10:12 +00:00			`import string`
			`from otp.otpbase import OTPLocalizer`
			`from direct.directnotify import DirectNotifyGlobal`
			`from pandac.PandaModules import NSError`
			`from pandac.PandaModules import TextEncoder, TextNode`
			`notify = DirectNotifyGlobal.directNotify.newCategory('NameCheck')`

			`def filterString(str, filter):`
			`result = ''`
			`for char in str:`
			`if char in filter:`
			`result = result + char`

			`return result`


			`def justLetters(str):`
			`letters = ''`
			`for c in str:`
			`if c.isalpha():`
			`letters = letters + c`

			`return letters`


			`def justUpper(str):`
			`upperCaseLetters = ''`
			`for c in str:`
			`if c.upper() != c.lower():`
			`if c == c.upper():`
			`upperCaseLetters = upperCaseLetters + c`

			`return upperCaseLetters`


			`def wordList(str):`
			`words = str.split()`
			`result = []`
			`for word in words:`
			`subWords = word.split('-')`
			`for sw in subWords:`
			`if sw:`
			`result.append(sw)`

			`return result`


			`def checkName(name, otherCheckFuncs = [], font = None):`

			`def longEnough(name):`
			`if len(name) < 2:`
			`notify.info('name is too short')`
			`return OTPLocalizer.NCTooShort`

			`def emptyName(name):`
			`if name.strip() == '':`
			`notify.info('name is empty')`
			`return OTPLocalizer.NCTooShort`

			`def printableChars(name):`
			`for char in name:`
			`if ord(char) < 128 and char not in string.printable:`
			`notify.info('name contains non-printable char #%s' % ord(char))`
			`return OTPLocalizer.NCGeneric`

			`validAsciiChars = set(".,'-" + string.letters + string.whitespace)`

			`def _validCharacter(c, validAsciiChars = validAsciiChars, font = font):`
			`if c in validAsciiChars:`
			`return True`
			`if c.isalpha() or c.isspace():`
			`return True`
			`return False`

			`def badCharacters(name, _validCharacter = _validCharacter):`
			`for char in name:`
			`if not _validCharacter(char):`
			`if char in string.digits:`
			`notify.info('name contains digits')`
			`return OTPLocalizer.NCNoDigits`
			`else:`
			`notify.info('name contains bad char: %s' % TextEncoder().encodeWtext(char))`
			`return OTPLocalizer.NCBadCharacter % TextEncoder().encodeWtext(char)`

			`def fontHasCharacters(name, font = font):`
			`if font:`
			`tn = TextNode('NameCheck')`
			`tn.setFont(font)`
			`for c in name:`
			`if not tn.hasCharacter(ord(c)):`
			`notify.info('name contains bad char: %s' % TextEncoder().encodeWtext(c))`
			`return OTPLocalizer.NCBadCharacter % TextEncoder().encodeWtext(c)`

			`def hasLetters(name):`
			`words = wordList(name)`
			`for word in words:`
			`letters = justLetters(word)`
			`if len(letters) == 0:`
			`notify.info('word "%s" has no letters' % TextEncoder().encodeWtext(word))`
			`return OTPLocalizer.NCNeedLetters`

			`def hasVowels(name):`

			`def perWord(word):`
			`if '.' in word:`
			`return None`
			`for char in word:`
			`if ord(char) >= 128:`
			`return None`

			`letters = filterString(word, string.letters)`
			`if len(letters) > 2:`
			`vowels = filterString(letters, 'aeiouyAEIOUY')`
			`if len(vowels) == 0:`
			`notify.info('word "%s" has no vowels' % TextEncoder().encodeWtext(word))`
			`return OTPLocalizer.NCNeedVowels`
			`return None`

			`for word in wordList(name):`
			`problem = perWord(word)`
			`if problem:`
			`return problem`

			`def monoLetter(name):`

			`def perWord(word):`
			`word = word`
			`letters = justLetters(word)`
			`if len(letters) > 2:`
			`letters = TextEncoder().decodeText(TextEncoder.lower(TextEncoder().encodeWtext(letters)))`
			`filtered = filterString(letters, letters[0])`
			`if filtered == letters:`
			`notify.info('word "%s" uses only one letter' % TextEncoder().encodeWtext(word))`
			`return OTPLocalizer.NCGeneric`

			`for word in wordList(name):`
			`problem = perWord(word)`
			`if problem:`
			`return problem`

			`def checkDashes(name):`
			`def validDash(index, name=name):`
			`if index == 0 or i == len(name)-1:`
			`return 0`
			`if not name[i-1].isalpha():`
			`return 0`
			`if not name[i+1].isalpha():`
			`return 0`
			`return 1`

			`i=0`
			`while 1:`
			`i = name.find('-', i, len(name))`
			`if i < 0:`
			`return None`
			`if not validDash(i):`
			`notify.info('name makes invalid use of dashes')`
			`return OTPLocalizer.NCDashUsage`
			`i += 1`

			`def checkCommas(name):`
			`def validComma(index, name=name):`
			`if index == 0 or i == len(name)-1:`
			`return OTPLocalizer.NCCommaEdge`
			`if name[i-1].isspace():`
			`return OTPLocalizer.NCCommaAfterWord`
			`if not name[i+1].isspace():`
			`return OTPLocalizer.NCCommaUsage`
			`return None`

			`i=0`
			`while 1:`
			`i = name.find(',', i, len(name))`
			`if i < 0:`
			`return None`
			`problem = validComma(i)`
			`if problem:`
			`notify.info('name makes invalid use of commas')`
			`return problem`
			`i += 1`

			`def checkPeriods(name):`
			`words = wordList(name)`
			`for word in words:`
			`if word[-1] == ',':`
			`word = word[:-1]`
			`numPeriods = word.count('.')`
			`if not numPeriods:`
			`continue`
			`letters = justLetters(word)`
			`numLetters = len(letters)`
			`if word[-1] != '.':`
			`notify.info('word "%s" does not end in a period' % TextEncoder().encodeWtext(word))`
			`return OTPLocalizer.NCPeriodUsage`
			`if numPeriods > 2:`
			`notify.info('word "%s" has too many periods' % TextEncoder().encodeWtext(word))`
			`return OTPLocalizer.NCPeriodUsage`
			`if numPeriods == 2:`
			`if not (word[1] == '.' and word[3] == '.'):`
			`notify.info('word "%s" does not fit the J.T. pattern' % TextEncoder().encodeWtext(word))`
			`return OTPLocalizer.NCPeriodUsage`

			`return None`

			`def checkApostrophes(name):`
			`words = wordList(name)`
			`for word in words:`
			`numApos = word.count("'")`
			`if numApos > 2:`
			`notify.info('word "%s" has too many apostrophes.' % TextEncoder().encodeWtext(word))`
			`return OTPLocalizer.NCApostrophes`

			`numApos = name.count("'")`
			`if numApos > 3:`
			`notify.info('name has too many apostrophes.')`
			`return OTPLocalizer.NCApostrophes`

			`def tooManyWords(name):`
			`if len(wordList(name)) > 4:`
			`notify.info('name has too many words')`
			`return OTPLocalizer.NCTooManyWords`

			`def allCaps(name):`
			`letters = justLetters(name)`
			`if len(letters) > 2:`
			`upperLetters = TextEncoder().decodeText(TextEncoder.upper(TextEncoder().encodeWtext(letters)))`
			`for i in xrange(len(upperLetters)):`
			`if not upperLetters[0].isupper():`
			`return`

			`if upperLetters == letters:`
			`notify.info('name is all caps')`
			`return OTPLocalizer.NCAllCaps`

			`def mixedCase(name):`
			`words = wordList(name)`
			`for word in words:`
			`if len(word) > 2:`
			`capitals = justUpper(word)`
			`if len(capitals) > 2:`
			`notify.info('name has mixed case')`
			`return OTPLocalizer.NCMixedCase`

			`def checkJapanese(name):`
			`asciiSpace = range(32, 33)`
			`asciiDigits = range(48, 64)`
			`hiragana = range(12353, 12448)`
			`katakana = range(12449, 12544)`
			`halfwidthKatakana = range(65381, 65440)`
			`halfwidthCharacter = set(asciiSpace + halfwidthKatakana)`
			`allowedUtf8 = set(asciiSpace + hiragana + katakana + halfwidthKatakana)`

			`te = TextEncoder()`
			`dc = 0.0`

			`for char in (ord(char) for char in te.decodeText(name)):`
			`if char not in allowedUtf8:`
			`if char in asciiDigits:`
			`notify.info('name contains not allowed ascii digits')`
			`return OTPLocalizer.NCNoDigits`
			`else:`
			`notify.info('name contains not allowed utf8 char: 0x%04x' % char)`
			`return OTPLocalizer.NCBadCharacter % te.encodeWtext(unichr(char))`
			`elif char in halfwidthCharacter:`
			`dc += 0.5`
			`else:`
			`dc += 1`

			`if dc < 2:`
			`notify.info('name is too short: %0.1f' % dc)`
			`return OTPLocalizer.NCTooShort`
			`elif dc > 8:`
			`notify.info('name has been occupied more than eight display cells: %0.1f' % dc)`
			`return OTPLocalizer.NCGeneric`

			`def repeatedChars(name):`
			`count = 1`
			`lastChar = None`
			`i = 0`
			`while i < len(name):`
			`char = name[i]`
			`i += 1`
			`if char == lastChar:`
			`count += 1`
			`else:`
			`count = 1`
			`lastChar = char`
			`if count > 2:`
			`notify.info('character %s is repeated too many times' % TextEncoder().encodeWtext(char))`
			`return OTPLocalizer.NCRepeatedChar % TextEncoder().encodeWtext(char)`

			`return`

			`checks = [printableChars,`
			`badCharacters,`
			`fontHasCharacters,`
			`longEnough,`
			`emptyName,`
			`hasLetters,`
			`hasVowels,`
			`monoLetter,`
			`checkDashes,`
			`checkCommas,`
			`checkPeriods,`
			`checkApostrophes,`
			`tooManyWords,`
			`allCaps,`
			`mixedCase,`
			`repeatedChars] + otherCheckFuncs`
			`symmetricChecks = []`
			`name = TextEncoder().decodeText(name)`
			`notify.info('checking name "%s"...' % TextEncoder().encodeWtext(name))`
			`for check in checks:`
			`problem = check(name[:])`
			`if not problem and check in symmetricChecks:`
			`nName = name[:]`
			`bName.reverse()`
			`problem = check(bName)`
			`print 'problem = %s' % problem`
			`if problem:`
			`return problem`

			`return None`


			`severity = notify.getSeverity()`
			`notify.setSeverity(NSError)`
			`for i in xrange(32):`
			`pass`

			for c in '!"#$%&()*+/:;<=>?@[\\]^_`{\|}~':
			`pass`

			`notify.setSeverity(severity)`
			`del severity`