Esempio n. 1
0
def replaceJapanese(msg):
	if not translator2.mecab_initialized:
		translator2.initialize()
	msg = translator2.japanese_braille_separate(msg, _logwrite)[0]

	global kanadic
	if kanadic is None:
		kanadic = load_kanadic()
	for p in kanadic:
		try:
			msg = re.sub(p[0], p[1], msg)
		except:
			pass
	return msg
Esempio n. 2
0
def pass2(verboseMode=False):
	global output
	outfile = '__h2output.txt'
	with open(outfile, 'w') as f:
		output = cStringIO.StringIO()
		translator2.initialize(__print, jtalk_dir, dic_dir, user_dics)
		log = output.getvalue()
		output.close()
		f.write(log)
		f.write("\n")
		count = 0
		for t in tests:
			if not t.has_key('input'):
				continue
			nabcc = False
			if t.has_key('mode') and t['mode'] == 'NABCC':
				nabcc = True
			if t.has_key('text'):
				output = cStringIO.StringIO()
				result, pat, inpos1, inpos2 = translator2.translateWithInPos2(
					t['text'], logwrite=__print, nabcc=nabcc)
				log = output.getvalue()
				output.close()
				# inpos2
				if t.has_key('inpos2'):
					correct_inpos2 = ','.join(['%d' % n for n in t['inpos2'] ])
				else:
					correct_inpos2 = None
				# inpos1
				if t.has_key('inpos1'):
					correct_inpos1 = ','.join(['%d' % n for n in t['inpos1'] ])
				else:
					correct_inpos1 = None
				# merged inpos
				inpos, outpos_ = translator2.mergePositionMap(
					inpos1, inpos2, len(pat), len(t['text']))
				# outpos
				outpos = translator2.makeOutPos(inpos, len(t['text']), len(pat))

				if t.has_key('inpos'):
					correct_inpos = ','.join(['%d' % n for n in t['inpos'] ])
				else:
					correct_inpos = None
				if t.has_key('outpos'):
					correct_outpos = ','.join(['%d' % n for n in t['outpos'] ])
				else:
					correct_outpos = None
				# result
				result_inpos2 = ','.join(['%d' % n for n in inpos2])
				result_inpos1 = ','.join(['%d' % n for n in inpos1])
				result_inpos  = ','.join(['%d' % n for n in inpos])
				result_outpos = ','.join(['%d' % n for n in outpos])
				# output
				isError = False
				if result != t['input'] or \
						(correct_inpos2 and result_inpos2 != correct_inpos2) or \
						(correct_inpos and result_inpos != correct_inpos) or \
						(correct_outpos and result_outpos != correct_outpos):
					isError = True
					count+=1 
				if isError or verboseMode:
					f.write("text   : " + t['text'].encode('utf-8') + "\n")
					f.write("correct: " + t['input'].encode('utf-8') + "\n")
					f.write("result : " + result.encode('utf-8') + "\n")
					f.write("pat    : " + pat.encode('utf-8') + "\n")
					if correct_inpos2:
						f.write("cor_in2: " + correct_inpos2 + "\n")
					if correct_inpos1:
						f.write("cor_in1: " + correct_inpos1 + "\n")
					if correct_inpos:
						f.write("cor_in : " + correct_inpos + "\n")
					if correct_outpos:
						f.write("cor_out: " + correct_outpos + "\n")
					f.write("res_in2: " + result_inpos2 + "\n")
					f.write("res_in1: " + result_inpos1 + "\n")
					f.write("res_in : " + result_inpos + "\n")
					f.write("res_out: " + result_outpos + "\n")
					if 'comment' in t and t['comment']:
						f.write("comment: " + t['comment'].encode('utf-8') + "\n")
					f.write("\n")
					f.write(log)
					f.write("\n")
		print 'h2: %d error(s). see %s' % (count, outfile)
	return (count, outfile)