diff options
Diffstat (limited to 'hu_HU/pythonpath/lightproof_impl_hu_HU.py')
| -rw-r--r-- | hu_HU/pythonpath/lightproof_impl_hu_HU.py | 248 |
1 files changed, 248 insertions, 0 deletions
diff --git a/hu_HU/pythonpath/lightproof_impl_hu_HU.py b/hu_HU/pythonpath/lightproof_impl_hu_HU.py new file mode 100644 index 0000000..f122057 --- /dev/null +++ b/hu_HU/pythonpath/lightproof_impl_hu_HU.py @@ -0,0 +1,248 @@ +# -*- encoding: UTF-8 -*- +import uno, re, sys, os, traceback +from string import join +from com.sun.star.text.TextMarkupType import PROOFREADING +from com.sun.star.beans import PropertyValue + +pkg = "hu_HU" +lang = "hu_HU" +locales = {'hu-HU': ['hu', 'HU', '']} +version = "1.4.4" +author = "László Németh" +name = "Lightproof grammar checker (magyar)" + +import lightproof_handler_hu_HU + +# loaded rules (check for Update mechanism of the editor) +try: + langrule +except NameError: + langrule = {} + +# ignored rules +ignore = {} + +# cache for morphogical analyses +analyses = {} +stems = {} +suggestions = {} + +# assign Calc functions +calcfunc = None + +# check settings +def option(lang, opt): + return lightproof_handler_hu_HU.get_option(lang.Language + "_" + lang.Country, opt) + +# filtering affix fields (ds, is, ts etc.) +def onlymorph(st): + if st != None: + st = re.sub(r"^.*(st:|po:)", r"\\1", st) # keep last word part + st = re.sub(r"\\b(?=[dit][sp]:)","@", st) # and its affixes + st = re.sub(r"(?<!@)\\b\w\w:\w+","", st).replace('@','').strip() + return st + +# if the pattern matches all analyses of the input word, +# return the last matched substring +def _morph(rLoc, word, pattern, all, onlyaffix): + global analyses + if not word: + return None + if word not in analyses: + x = spellchecker.spell(u"<?xml?><query type='analyze'><word>" + word + "</word></query>", rLoc, ()) + if not x: + return None + t = x.getAlternatives() + if not t: + t = [""] + analyses[word] = t[0].split("</a>")[:-1] + a = analyses[word] + result = None + p = re.compile(pattern) + for i in a: + if onlyaffix: + i = onlymorph(i) + result = p.search(i) + if result: + result = result.group(0) + if not all: + return result + elif all: + return None + return result + +def morph(rLoc, word, pattern, all=True): + return _morph(rLoc, word, pattern, all, False) + +def affix(rLoc, word, pattern, all=True): + return _morph(rLoc, word, pattern, all, True) + +def spell(rLoc, word): + if not word: + return None + return spellchecker.isValid(word, rLoc, ()) + +# get the tuple of the stem of the word or an empty array +def stem(rLoc, word): + global stems + if not word: + return [] + if not word in stems: + x = spellchecker.spell(u"<?xml?><query type='stem'><word>" + word + "</word></query>", rLoc, ()) + if not x: + return [] + t = x.getAlternatives() + if not t: + t = [] + stems[word] = list(t) + return stems[word] + +# get the tuple of the morphological generation of a word or an empty array +def generate(rLoc, word, example): + if not word: + return [] + x = spellchecker.spell(u"<?xml?><query type='generate'><word>" + word + "</word><word>" + example + "</word></query>", rLoc, ()) + if not x: + return [] + t = x.getAlternatives() + if not t: + t = [] + return list(t) + +# get suggestions +def suggest(rLoc, word): + global suggestions + if not word: + return word + if word not in suggestions: + x = spellchecker.spell("_" + word, rLoc, ()) + if not x: + return word + t = x.getAlternatives() + suggestions[word] = join(t, "|") + return suggestions[word] + +# get the nth word of the input string or None +def word(s, n): + a = re.match("(?u)( [-.\w%%]+){" + str(n-1) + "}( [-.\w%%]+)", s) + if not a: + return '' + return a.group(2)[1:] + +# get the (-)nth word of the input string or None +def wordmin(s, n): + a = re.search("(?u)([-.\w%%]+ )([-.\w%%]+ ){" + str(n-1) + "}$", s) + if not a: + return '' + return a.group(1)[:-1] + +def calc(funcname, par): + global calcfunc + global SMGR + if calcfunc == None: + calcfunc = SMGR.createInstance( "com.sun.star.sheet.FunctionAccess") + if calcfunc == None: + return None + return calcfunc.callFunction(funcname, par) + +def proofread( nDocId, TEXT, LOCALE, nStartOfSentencePos, nSuggestedSentenceEndPos, rProperties ): + global ignore + aErrs = [] + s = TEXT[nStartOfSentencePos:nSuggestedSentenceEndPos] + for i in get_rule(LOCALE).dic: + # 0: regex, 1: replacement, 2: message, 3: condition, 4: ngroup, (5: oldline), 6: case sensitive ? + if i[0] and not str(i[0]) in ignore: + for m in i[0].finditer(s): + try: + if not i[3] or eval(i[3]): + aErr = uno.createUnoStruct( "com.sun.star.linguistic2.SingleProofreadingError" ) + aErr.nErrorStart = nStartOfSentencePos + m.start(i[4]) # nStartOfSentencePos + aErr.nErrorLength = m.end(i[4]) - m.start(i[4]) + aErr.nErrorType = PROOFREADING + aErr.aRuleIdentifier = str(i[0]) + iscap = (i[-1] and m.group(i[4])[0:1].isupper()) + if i[1][0:1] == "=": + aErr.aSuggestions = tuple(cap(eval(i[1][1:]).replace('|', "\n").split("\n"), iscap, LOCALE)) + elif i[1] == "_": + aErr.aSuggestions = () + else: + aErr.aSuggestions = tuple(cap(m.expand(i[1]).replace('|', "\n").split("\n"), iscap, LOCALE)) + comment = i[2] + if comment[0:1] == "=": + comment = eval(comment[1:]) + else: + comment = m.expand(comment) + aErr.aShortComment = comment.replace('|', '\n').replace('\\n', '\n').split("\n")[0].strip() + aErr.aFullComment = comment.replace('|', '\n').replace('\\n', '\n').split("\n")[-1].strip() + if "://" in aErr.aFullComment: + p = PropertyValue() + p.Name = "FullCommentURL" + p.Value = aErr.aFullComment + aErr.aFullComment = aErr.aShortComment + aErr.aProperties = (p,) + else: + aErr.aProperties = () + aErrs = aErrs + [aErr] + except Exception as e: + if len(i) == 7: + raise Exception(str(e), i[5]) + raise + + return tuple(aErrs) + +def cap(a, iscap, rLoc): + if iscap: + for i in range(0, len(a)): + if a[i][0:1] == "i": + if rLoc.Language == "tr" or rLoc.Language == "az": + a[i] = u"\u0130" + a[i][1:] + elif a[i][1:2] == "j" and rLoc.Language == "nl": + a[i] = "IJ" + a[i][2:] + else: + a[i] = "I" + a[i][1:] + else: + a[i] = a[i].capitalize() + return a + +def compile_rules(dic): + # compile regular expressions + for i in dic: + try: + if re.compile("[(][?]iu[)]").match(i[0]): + i += [True] + i[0] = re.sub("[(][?]iu[)]", "(?u)", i[0]) + else: + i += [False] + i[0] = re.compile(i[0]) + except: + if 'PYUNO_LOGLEVEL' in os.environ: + print("Lightproof: bad regular expression: ", traceback.format_exc()) + i[0] = None + +def get_rule(loc): + try: + return langrule[pkg] + except: + langrule[pkg] = __import__("lightproof_" + pkg) + compile_rules(langrule[pkg].dic) + return langrule[pkg] + +def get_path(): + return os.path.join(os.path.dirname(sys.modules[__name__].__file__), __name__ + ".py") + +# [code] + + +abbrev=re.compile(ur"(?i)\\b([a-z\xf6\xfc\xf3\u0151\xfa\xe9\xe1\u0171\xed\xd6\xdc\xd3\u0150\xda\xc9\xc1\u0170\xcd]|\xc1e|\xc1ht|AkH|al|\xe1lt|\xe1pr|aug|Avtv|bek|Bp|br|bt|Btk|cca|ci(i|ii|v|x)?|cl(i|ii|iii|iv|ix|v|vi|vii|viii|x|xi|xii|xiii|xiv|xix|xv|xvi|xvii|xviii|xx|xxi|xxii|xxiii|xxiv|xxix|xxv|xxvi|xxvii|xxviii|xxx|xxxi|xxxii|xxxiii|xxxiv|xxxix|xxxv|xxxvi|xxxvii|xxxviii)?|Co|cv(i|ii|iii)?|cx(c|ci|cii|ciii|civ|cix|cv|cvi|cvii|cviii|i|ii|iii|iv|ix|l|li|lii|liii|liv|lix|lv|lvi|lvii|lviii|v|vi|vii|viii|x|xi|xii|xiii|xiv|xix|xv|xvi|xvii|xviii|xx|xxi|xxii|xxiii|xxiv|xxix|xxv|xxvi|xxvii|xxviii)?|cs|Csjt|Cstv|cs\xfct|dec|dk|dny|dr|du|dz(s)?|egy|\xe9k|\xc9Ksz|em|\xe9ny|\xc9pt|\xe9rk|etc|Etv|e\xfc|ev|\xe9vf|febr|felv|Flt|ford|f\u0151isk|fsz(la|t)?|Ftv|gimn|g\xf6r|gr|Gt|gy|Gyvt|habil|hg|hiv|Hjt|honv|Hpt|hrsz|hsz|Hszt|htb|id|ifj|ig(h)?|ii(i)?|ill|Inc|ind|isk|iv|ix|izr|jan|jegyz|j\xfal|j\xfan|kat|kb|Kbt|ker|kft|kgy|kht|kir|kiv|Kjt|kk(t)?|koll|korm|k\xf6v|kp|Kr|krt|Kt(v)?|ld|li(i|ii|v|x)?|Ltd|ltp|Ltv|luth|lv(i|ii|iii)?|lx(i|ii|iii|iv|ix|v|vi|vii|viii|x|xi|xii|xiii|xiv|xix|xv|xvi|xvii|xviii|xx|xxi|xxii|xxiii|xxiv|xxix|xxv|xxvi|xxvii|xxviii)?|ly|m\xe1j|m\xe1rc|mat|max|mb|megh|megj|MHSz|min|mk|Mo|Mt|NB|nov|ny(\xe1)?|Nyilv|nyrt|okl|okt|olv|op|orsz|ort|ov(h)?|\xf6ssz|\xd6tv|\xf6zv|Pf|pl(d)?|prof|prot|Ptk|pu|ref|rk(p)?|r\xf3m|r\xf6v|rt|sgt|spec|stb|sz(ept|erk)?|Szjt|szoc|Szt(v)?|sz\xfcl|Tbj|tc|tel|tkp|tszf|tvr|ty|ua|ui|\xfam|\xfan|uo|Ve|Vhr|vi(i|ii)?|v\xf6|vsz|Vt(v)?|xc(i|ii|iii|iv|ix|v|vi|vii|viii)?|xi(i|ii|v|x)?|xl(i|ii|iii|iv|ix|v|vi|vii|viii)?|xv(i|ii|iii)?|xx(i|ii|iii|iv|ix|v|vi|vii|viii|x|xi|xii|xiii|xiv|xix|xv|xvi|xvii|xviii)?|zrt)\\.") + +# pattern for paragraph checking +paralcap = re.compile(u"(?u)^[a-z\xf6\xfc\xf3\u0151\xfa\xe9\xe1\u0171\xed].*[.?!] [A-Z\xd6\xdc\xd3\u0150\xda\xc9\xc1\u0170\xcd].*[.?!][)\u201d]?$") + + +def measurement(mnum, min, mout, mstr): + m = calc("CONVERT_ADD", (float(mnum.replace(",", ".").replace(u"\u2212", "-")), min, mout)) + a = list(set([str(calc("ROUND", (m, 0)))[:-2], str(calc("ROUND", (m, 1))), str(calc("ROUND", (m, 2))), str(m)])) # remove duplicated rounded items + a.sort(lambda x, y: len(x) - len(y)) # sort by string length + return join(a, mstr + "|").replace(".", ",").replace("-", u"\u2212") + mstr + + |