import xml.etree.ElementTree as ET import json import re from svtplay_dl.log import log from svtplay_dl.utils import is_py2, is_py3, decode_html_entities from svtplay_dl.utils.io import StringIO from svtplay_dl.output import output from requests import Session from requests import __build__ as requests_version import platform class subtitle(object): def __init__(self, options, subtype, url, subfix = None): self.url = url self.subtitle = None self.options = options self.subtype = subtype self.http = Session() self.subfix = subfix def download(self): subdata = self.http.request("get", self.url, cookies=self.options.cookies) data = None if self.subtype == "tt": data = self.tt(subdata) if self.subtype == "json": data = self.json(subdata) if self.subtype == "sami": data = self.sami(subdata) if self.subtype == "smi": data = self.smi(subdata) if self.subtype == "wrst": data = self.wrst(subdata) if self.subtype == "raw": if is_py2: data = subdata.text.encode("utf-8") else: data = subdata.text ifself.subfix: self.options.output = self.options.output + self.subfix if platform.system() == "Windows" and is_py3: file_d = output(self.options, "srt", mode="wt", encoding="utf-8") else: file_d = output(self.options, "srt", mode="wt") if hasattr(file_d, "read") is False: return file_d.write(data) file_d.close() def tt(self, subdata): i = 1 data = "" if is_py2: subs = subdata.text.encode("utf8") else: subs = subdata.text subdata = re.sub(' xmlns="[^"]+"', '', subs, count=1) tree = ET.XML(subdata) xml = tree.find("body").find("div") plist = list(xml.findall("p")) for node in plist: tag = norm(node.tag) if tag == "p" or tag == "span": begin = node.attrib["begin"] if not ("dur" in node.attrib): duration = node.attrib["duration"] else: duration = node.attrib["dur"] if not ("end" in node.attrib): begin2 = begin.split(":") duration2 = duration.split(":") try: sec = float(begin2[2]) + float(duration2[2]) except ValueError: sec = 0.000 end = "%02d:%02d:%06.3f" % (int(begin[0]), int(begin[1]), sec) else: end = node.attrib["end"] data += '%s\n%s --> %s\n' % (i, begin.replace(".", ","), end.replace(".", ",")) data = tt_text(node, data) data += "\n" i += 1 if is_py2: data = data.encode("utf8") return data def json(self, subdata): data = json.loads(subdata.text) number = 1 subs = "" for i in data: subs += "%s\n%s --> %s\n" % (number, timestr(int(i["startMillis"])), timestr(int(i["endMillis"]))) if is_py2: subs += "%s\n\n" % i["text"].encode("utf-8") else: subs += "%s\n\n" % i["text"] number += 1 return subs def sami(self, subdata): tree = ET.XML(subdata.text.encode("utf8")) subt = tree.find("Font") subs = "" n = 0 for i in subt.getiterator(): if i.tag == "Subtitle": n = i.attrib["SpotNumber"] if i.attrib["SpotNumber"] == "1": subs += "%s\n%s --> %s\n" % (i.attrib["SpotNumber"], timecolon(i.attrib["TimeIn"]), timecolon(i.attrib["TimeOut"])) else: subs += "\n%s\n%s --> %s\n" % (i.attrib["SpotNumber"], timecolon(i.attrib["TimeIn"]), timecolon(i.attrib["TimeOut"])) else: if int(n) > 0: subs += "%s\n" % i.text if is_py2: subs = subs.encode('utf8') return subs def smi(self, subdata): if requests_version < 0x20300: if is_py2: subdata = subdata.content else: subdata = subdata.content.decode("latin") else: subdata.encoding = "ISO-8859-1" subdata = subdata.text ssubdata = StringIO(subdata) timea = 0 number = 1 data = None subs = "" TAG_RE = re.compile(r'<[^>]+>') bad_char = re.compile(r'\x96') for i in ssubdata.readlines(): i = i.rstrip() sync = re.search(r"", i) if sync: if int(sync.group(1)) != int(timea): if data and data != " ": subs += "%s\n%s --> %s\n" % (number, timestr(timea), timestr(sync.group(1))) text = "%s\n" % TAG_RE.sub('', data.replace("
", "\n")) if text[len(text)-2] != "\n": text += "\n" subs += text number += 1 timea = sync.group(1) text = re.search("

(.*)", i) if text: data = text.group(1) recomp = re.compile(r'\r') text = bad_char.sub('-', recomp.sub('', subs)).replace('"', '"') if is_py2 and isinstance(text, unicode): return text.encode("utf-8") return text def wrst(self, subdata): ssubdata = StringIO(subdata.text) srt = "" subtract = False number_b = 1 number = 0 block = 0 subnr = False for i in ssubdata.readlines(): match = re.search(r"^[\r\n]+", i) match2 = re.search(r"([\d:\.]+ --> [\d:\.]+)", i) match3 = re.search(r"^(\d+)\s", i) if i[:6] == "WEBVTT": pass elif match and number_b > 1: block = 0 srt += "\n" elif match2: if not subnr: srt += "%s\n" % number_b matchx = re.search(r'(\d+):(\d+)[.:]([\d\.]+) --> (\d+):(\d+)[.:]([\d\.]+)', i) hour1 = int(matchx.group(1)) hour2 = int(matchx.group(4)) if int(number) == 1: if hour1 > 9: subtract = True if subtract: hour1 -= 10 hour2 -= 10 time = "%s:%s:%s --> %s:%s:%s\n" % (hour1, matchx.group(2), matchx.group(3).replace(".", ","), hour2, matchx.group(5), matchx.group(6).replace(".", ",")) srt += time block = 1 subnr = False number_b += 1 elif match3 and block == 0: number = match3.group(1) srt += "%s\n" % number subnr = True else: sub = re.sub('<[^>]*>', '', i) srt += sub.strip() srt+="\n" srt = decode_html_entities(srt) if is_py2: return srt.encode("utf-8") return srt def timestr(msec): """ Convert a millisecond value to a string of the following format: HH:MM:SS,SS with 10 millisecond precision. Note the , seperator in the seconds. """ sec = float(msec) / 1000 hours = int(sec / 3600) sec -= hours * 3600 minutes = int(sec / 60) sec -= minutes * 60 output = "%02d:%02d:%05.2f" % (hours, minutes, sec) return output.replace(".", ",") def timecolon(data): match = re.search(r"(\d+:\d+:\d+):(\d+)", data) return "%s,%s" % (match.group(1), match.group(2)) def norm(name): if name[0] == "{": _, tag = name[1:].split("}") return tag else: return name def tt_text(node, data): if node.text: data += "%s\n" % node.text.strip(' \t\n\r') for i in node: if i.text: data += "%s\n" % i.text.strip(' \t\n\r') if i.tail: text = i.tail.strip(' \t\n\r') if text: data += "%s\n" % text return data