# # Gramps - a GTK+/GNOME based genealogy program # # Copyright (C) 2000-2007 Donald N. Allingham # # This program is free software; you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation; either version 2 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program; if not, write to the Free Software # Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA # # $Id$ """ Note class for GRAMPS """ __revision__ = "$Revision$" #------------------------------------------------------------------------- # # standard python modules # #------------------------------------------------------------------------- import re import new #------------------------------------------------------------------------- # # GRAMPS modules # #------------------------------------------------------------------------- from _BasicPrimaryObject import BasicPrimaryObject from _NoteType import NoteType from MarkupText import ROOT_START_TAG, LEN_ROOT_START_TAG from _MarkerType import MarkerType #------------------------------------------------------------------------- # # Class for notes used throughout the majority of GRAMPS objects # #------------------------------------------------------------------------- class Note(BasicPrimaryObject): """ Introduction ============ The Note class defines a text note. The note may be preformatted or 'flowed', which indicates that it text string is considered to be in paragraphs, separated by newlines. """ FLOWED = 0 FORMATTED = 1 def __init__(self, text = ""): """ Creates a new Note object, initializing from the passed string. """ BasicPrimaryObject.__init__(self) self.text = text self.format = Note.FLOWED self.type = NoteType() def serialize(self): """ Converts the object to a serialized tuple of data """ return (self.handle, self.gramps_id, self.text, self.format, self.type.serialize(), self.change, self.marker.serialize(), self.private) def unserialize(self, data): """ Converts a serialized tuple of data to an object """ (self.handle, self.gramps_id, self.text, self.format, the_type, self.change, the_marker, self.private) = data self.marker = new.instance(MarkerType, None) self.marker.unserialize(the_marker) self.type = new.instance(NoteType, None) self.type.unserialize(the_type) def get_text_data_list(self): """ Returns the list of all textual attributes of the object. @return: Returns the list of all textual attributes of the object. @rtype: list """ return [self.delete_tags(self.text)] def set(self, text): """ Sets the text associated with the note to the passed string. @param text: Text string defining the note contents. @type text: str """ self.text = text def get(self, markup=False): """ Return the text string associated with the note. @param markup: If note should be returned with markup or plain text @type markup: boolean @returns: Returns the text string defining the note contents. @rtype: str """ text = self.text if not markup and text[0:LEN_ROOT_START_TAG] == ROOT_START_TAG: text = self.delete_tags(text) return text def delete_tags(self, markup_text): """ Creates a plain text version of the note text by removing all pango markup tags. @param markup_text: Pango style markup text @type markup_text: str @return: Plain text @rtype: str """ text = re.sub(r'(<.*?>)', '', markup_text) text = text.replace('&', '&') text = text.replace('<', '<') text = text.replace('>', '>') return text def append(self, text): """ Appends the specified text to the text associated with the note. @param text: Text string to be appended to the note. @type text: str """ self.text = self.text + text def set_format(self, format): """ Sets the format of the note to the passed value. The value can either indicate Flowed or Preformatted. @type format: int """ self.format = format def get_format(self): """ Returns the format of the note. The value can either indicate Flowed or Preformatted. @returns: 0 indicates Flowed, 1 indicates Preformated @rtype: int """ return self.format def set_type(self, the_type): """ @param the_type: descriptive type of the Note @type the_type: str """ self.type.set(the_type) def get_type(self): """ @returns: the descriptive type of the Note @rtype: str """ return self.type if __name__ == "__main__": import hotshot prof = hotshot.Profile("note.profile") f = open("notetest3_10.txt") note = Note(f.read()) for i in range(100000): prof.runcall(note.get) prof.close()