# -*- coding: utf-8 -*- from hachoir.core.endian import endian_name from hachoir.core.tools import makePrintable, makeUnicode from hachoir.core.dict import Dict from hachoir.core.i18n import _ from hachoir.core.log import Logger from hachoir.metadata.metadata_item import ( MIN_PRIORITY, MAX_PRIORITY, QUALITY_NORMAL) from hachoir.metadata.register import registerAllItems extractors = {} class Metadata(Logger): header = u"Metadata" def __init__(self, parent, quality=QUALITY_NORMAL): assert isinstance(self.header, unicode) # Limit to 0.0 .. 1.0 if parent: quality = parent.quality else: quality = min(max(0.0, quality), 1.0) object.__init__(self) object.__setattr__(self, "_Metadata__data", {}) object.__setattr__(self, "quality", quality) header = self.__class__.header object.__setattr__(self, "_Metadata__header", header) registerAllItems(self) def _logger(self): pass def __setattr__(self, key, value): """ Add a new value to data with name 'key'. Skip duplicates. """ # Invalid key? if key not in self.__data: raise KeyError(_("%s has no metadata '%s'") % (self.__class__.__name__, key)) # Skip duplicates self.__data[key].add(value) def setHeader(self, text): object.__setattr__(self, "header", text) def getItems(self, key): try: return self.__data[key] except LookupError: raise ValueError("Metadata has no value '%s'" % key) def getItem(self, key, index): try: return self.getItems(key)[index] except (LookupError, ValueError): return None def has(self, key): return 1 <= len(self.getItems(key)) def get(self, key, default=None, index=0): """ Read first value of tag with name 'key'. >>> from datetime import timedelta >>> a = RootMetadata() >>> a.duration = timedelta(seconds=2300) >>> a.get('duration') datetime.timedelta(0, 2300) >>> a.get('author', u'Anonymous') u'Anonymous' """ item = self.getItem(key, index) if item is None: if default is None: raise ValueError( "Metadata has no value '%s' (index %s)" % (key, index)) else: return default return item.value def getValues(self, key): try: data = self.__data[key] except LookupError: raise ValueError("Metadata has no value '%s'" % key) return [item.value for item in data] def getText(self, key, default=None, index=0): """ Read first value, as unicode string, of tag with name 'key'. >>> from datetime import timedelta >>> a = RootMetadata() >>> a.duration = timedelta(seconds=2300) >>> a.getText('duration') u'38 min 20 sec' >>> a.getText('titre', u'Unknown') u'Unknown' """ item = self.getItem(key, index) if item is not None: return item.text else: return default def register(self, data): assert data.key not in self.__data data.metadata = self self.__data[data.key] = data def __iter__(self): return self.__data.itervalues() def __str__(self): r""" Create a multi-line ASCII string (end of line is "\n") which represents all datas. >>> a = RootMetadata() >>> a.author = "haypo" >>> a.copyright = unicode("© Hachoir", "UTF-8") >>> print a Metadata: - Author: haypo - Copyright: \xa9 Hachoir @see __unicode__() and exportPlaintext() """ text = self.exportPlaintext() return "\n".join(makePrintable(line, "ASCII") for line in text) def __unicode__(self): r""" Create a multi-line Unicode string (end of line is "\n") which represents all datas. >>> a = RootMetadata() >>> a.copyright = unicode("© Hachoir", "UTF-8") >>> print repr(unicode(a)) u'Metadata:\n- Copyright: \xa9 Hachoir' @see __str__() and exportPlaintext() """ return "\n".join(self.exportPlaintext()) def exportPlaintext(self, priority=None, human=True, line_prefix=u"- ", title=None): r""" Convert metadata to multi-line Unicode string and skip datas with priority lower than specified priority. Default priority is Metadata.MAX_PRIORITY. If human flag is True, data key are translated to better human name (eg. "bit_rate" becomes "Bit rate") which may be translated using gettext. If priority is too small, metadata are empty and so None is returned. >>> print RootMetadata().exportPlaintext() None >>> meta = RootMetadata() >>> meta.copyright = unicode("© Hachoir", "UTF-8") >>> print repr(meta.exportPlaintext()) [u'Metadata:', u'- Copyright: \xa9 Hachoir'] @see __str__() and __unicode__() """ if priority is not None: priority = max(priority, MIN_PRIORITY) priority = min(priority, MAX_PRIORITY) else: priority = MAX_PRIORITY if not title: title = self.header text = ["%s:" % title] for data in sorted(self): if priority < data.priority: break if not data.values: continue if human: title = data.description else: title = data.key for item in data.values: if human: value = item.text else: value = makeUnicode(item.value) text.append("%s%s: %s" % (line_prefix, title, value)) if 1 < len(text): return text else: return None def exportDictionary(self, priority=None, human=True, title=None): r""" Convert metadata to python Dictionary and skip datas with priority lower than specified priority. Default priority is Metadata.MAX_PRIORITY. If human flag is True, data key are translated to better human name (eg. "bit_rate" becomes "Bit rate") which may be translated using gettext. If priority is too small, metadata are empty and so None is returned. """ if priority is not None: priority = max(priority, MIN_PRIORITY) priority = min(priority, MAX_PRIORITY) else: priority = MAX_PRIORITY if not title: title = self.header text = {} text[title] = {} for data in sorted(self): if priority < data.priority: break if not data.values: continue if human: field = data.description else: field = data.key text[title][field] = {} for item in data.values: if human: value = item.text else: value = makeUnicode(item.value) text[title][field] = value return text def __nonzero__(self): return any(item for item in self.__data.itervalues()) class RootMetadata(Metadata): def __init__(self, quality=QUALITY_NORMAL): Metadata.__init__(self, None, quality) class MultipleMetadata(RootMetadata): header = _("Common") def __init__(self, quality=QUALITY_NORMAL): RootMetadata.__init__(self, quality) object.__setattr__(self, "_MultipleMetadata__groups", Dict()) object.__setattr__(self, "_MultipleMetadata__key_counter", {}) def __contains__(self, key): return key in self.__groups def __getitem__(self, key): return self.__groups[key] def iterGroups(self): return self.__groups.itervalues() def __nonzero__(self): if RootMetadata.__nonzero__(self): return True return any(bool(group) for group in self.__groups) def addGroup(self, key, metadata, header=None): """ Add a new group (metadata of a sub-document). Returns False if the group is skipped, True if it has been added. """ if not metadata: self.warning("Skip empty group %s" % key) return False if key.endswith("[]"): key = key[:-2] if key in self.__key_counter: self.__key_counter[key] += 1 else: self.__key_counter[key] = 1 key += "[%u]" % self.__key_counter[key] if header: metadata.setHeader(header) self.__groups.append(key, metadata) return True def exportPlaintext(self, priority=None, human=True, line_prefix=u"- "): common = Metadata.exportPlaintext(self, priority, human, line_prefix) if common: text = common else: text = [] for key, metadata in self.__groups.iteritems(): if not human: title = key else: title = None value = metadata.exportPlaintext( priority, human, line_prefix, title=title) if value: text.extend(value) if len(text): return text else: return None def exportDictionary(self, priority=None, human=True): common = Metadata.exportDictionary(self, priority, human) if common: text = common else: text = {} for key, metadata in self.__groups.items(): if not human: title = key else: title = None value = metadata.exportDictionary(priority, human, title=title) if value: text.update(value) return text def registerExtractor(parser, extractor): assert parser not in extractors assert issubclass(extractor, RootMetadata) extractors[parser] = extractor def extractMetadata(parser, quality=QUALITY_NORMAL, **kwargs): """ Create a Metadata class from a parser. Returns None if no metadata extractor does exist for the parser class. """ try: extractor = extractors[parser.__class__] except KeyError: return None metadata = extractor(quality) meta_extract_error = True try: if 'scan_index' in kwargs: metadata.extract(parser, scan_index=kwargs['scan_index']) else: metadata.extract(parser) meta_extract_error = False except Exception as err: error("Error during metadata extraction: %s" % unicode(err)) except Exception as err: error("Error during metadata extraction: %s" % unicode(err)) if meta_extract_error: try: parser.stream._input.close() except: pass return None if metadata: metadata.mime_type = parser.mime_type metadata.endian = endian_name[parser.endian] return metadata