from lib.hachoir_core.tools import makeUnicode, normalizeNewline from lib.hachoir_core.error import HACHOIR_ERRORS from lib.hachoir_metadata import config from lib.hachoir_metadata.setter import normalizeString MIN_PRIORITY = 100 MAX_PRIORITY = 999 QUALITY_FASTEST = 0.0 QUALITY_FAST = 0.25 QUALITY_NORMAL = 0.5 QUALITY_GOOD = 0.75 QUALITY_BEST = 1.0 class DataValue: def __init__(self, value, text): self.value = value self.text = text class Data: def __init__(self, key, priority, description, text_handler=None, type=None, filter=None, conversion=None): """ handler is only used if value is not string nor unicode, prototype: def handler(value) -> str/unicode """ assert MIN_PRIORITY <= priority <= MAX_PRIORITY assert isinstance(description, unicode) self.metadata = None self.key = key self.description = description self.values = [] if type and not isinstance(type, (tuple, list)): type = (type,) self.type = type self.text_handler = text_handler self.filter = filter self.priority = priority self.conversion = conversion def _createItem(self, value, text=None): if text is None: if isinstance(value, unicode): text = value elif self.text_handler: text = self.text_handler(value) assert isinstance(text, unicode) else: text = makeUnicode(value) return DataValue(value, text) def add(self, value): if isinstance(value, tuple): if len(value) != 2: raise ValueError("Data.add() only accept tuple of 2 elements: (value,text)") value, text = value else: text = None # Skip value 'None' if value is None: return if isinstance(value, (str, unicode)): value = normalizeString(value) if not value: return # Convert string to Unicode string using charset ISO-8859-1 if self.conversion: try: new_value = self.conversion(self.metadata, self.key, value) except HACHOIR_ERRORS, err: self.metadata.warning("Error during conversion of %r value: %s" % ( self.key, err)) return if new_value is None: dest_types = " or ".join(str(item.__name__) for item in self.type) self.metadata.warning("Unable to convert %s=%r (%s) to %s" % ( self.key, value, type(value).__name__, dest_types)) return if isinstance(new_value, tuple): if text: value = new_value[0] else: value, text = new_value else: value = new_value elif isinstance(value, str): value = unicode(value, "ISO-8859-1") if self.type and not isinstance(value, self.type): dest_types = " or ".join(str(item.__name__) for item in self.type) self.metadata.warning("Key %r: value %r type (%s) is not %s" % ( self.key, value, type(value).__name__, dest_types)) return # Skip empty strings if isinstance(value, unicode): value = normalizeNewline(value) if config.MAX_STR_LENGTH \ and config.MAX_STR_LENGTH < len(value): value = value[:config.MAX_STR_LENGTH] + "(...)" # Skip duplicates if value in self: return # Use filter if self.filter and not self.filter(value): self.metadata.warning("Skip value %s=%r (filter)" % (self.key, value)) return # For string, if you have "verlongtext" and "verylo", # keep the longer value if isinstance(value, unicode): for index, item in enumerate(self.values): item = item.value if not isinstance(item, unicode): continue if value.startswith(item): # Find longer value, replace the old one self.values[index] = self._createItem(value, text) return if item.startswith(value): # Find truncated value, skip it return # Add new value self.values.append(self._createItem(value, text)) def __len__(self): return len(self.values) def __getitem__(self, index): return self.values[index] def __contains__(self, value): for item in self.values: if value == item.value: return True return False def __cmp__(self, other): return cmp(self.priority, other.priority)