# # Gramps - a GTK+/GNOME based genealogy program # # Copyright (C) 2000-2006 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 # # $Id$ "Database Processing/Check and repair database" #------------------------------------------------------------------------- # # python modules # #------------------------------------------------------------------------- import os import cStringIO import sets from gettext import gettext as _ #------------------------------------------------------------------------ # # Set up logging # #------------------------------------------------------------------------ import logging log = logging.getLogger(".CheckRepair") #------------------------------------------------------------------------- # # gtk modules # #------------------------------------------------------------------------- import gtk import gtk.glade #------------------------------------------------------------------------- # # GRAMPS modules # #------------------------------------------------------------------------- import RelLib import Utils import const import ManagedWindow from PluginUtils import Tool, register_tool from QuestionDialog import OkDialog, MissingMediaDialog from NameDisplay import displayer as _nd #------------------------------------------------------------------------- # # Low Level repair # #------------------------------------------------------------------------- def low_level(db): """ This is a low-level repair routine. It is fixing DB inconsistencies such as duplicates. Returns a (status,name) tuple. The boolean status indicates the success of the procedure. The name indicates the problematic table (empty if status is True). """ for the_map in [('Person',db.person_map), ('Family',db.family_map), ('Event',db.event_map), ('Place',db.place_map), ('Source',db.source_map), ('Media',db.media_map)]: print "Low-level repair: table: %s" % the_map[0] if _table_low_level(db,the_map[1]): print "Done." else: print "Low-level repair: Problem with table: %s" % the_map[0] return (False,the_map[0]) return (True,'') def _table_low_level(db,table): """ Low level repair for a given db table. """ handle_list = table.keys() dup_handles = sets.Set( [ handle for handle in handle_list if handle_list.count(handle) > 1 ] ) if not dup_handles: print " No dupes found for this table" return True import GrampsBSDDB table_cursor = GrampsBSDDB.GrampsBSDDBDupCursor(table) for handle in dup_handles: print " Duplicates found for handle: %s" % handle try: ret = table_cursor.set(handle) except: print " Failed setting initial cursor." return False for count in range(handle_list.count(handle)-1): try: table_cursor.delete() print " Succesfully deleted dupe #%d" % (count+1) except: print " Failed deleting dupe." return False try: ret = table_cursor.next_dup() except: print " Failed moving the cursor." return False table_cursor.close() table.sync() return True #------------------------------------------------------------------------- # # runTool # #------------------------------------------------------------------------- class Check(Tool.BatchTool): def __init__(self, dbstate, uistate, options_class, name, callback=None): Tool.BatchTool.__init__(self, dbstate, options_class, name) if self.fail: return cli = uistate == None if self.db.readonly: # TODO: split plugin in a check and repair part to support # checking of a read only database return # The low-level repair is bypassing the transaction mechanism. # As such, we run it before starting the transaction. # We only do this for the BSDDB backend. if self.db.__class__.__name__ == 'GrampsBSDDB': low_level(self.db) trans = self.db.transaction_begin("",batch=True) self.db.disable_signals() checker = CheckIntegrity(dbstate, uistate, trans) checker.fix_encoding() checker.cleanup_missing_photos(cli) checker.cleanup_deleted_name_formats() prev_total = -1 total = 0 while prev_total != total: prev_total = total checker.check_for_broken_family_links() checker.check_parent_relationships() checker.cleanup_empty_families(cli) checker.cleanup_duplicate_spouses() total = checker.family_errors() checker.check_events() checker.check_place_references() checker.check_source_references() self.db.transaction_commit(trans, _("Check Integrity")) self.db.enable_signals() self.db.request_rebuild() errs = checker.build_report(cli) if errs: Report(uistate, checker.text.getvalue(),cli) #------------------------------------------------------------------------- # # # #------------------------------------------------------------------------- class CheckIntegrity: def __init__(self, dbstate, uistate, trans): self.db = dbstate.db self.trans = trans self.bad_photo = [] self.replaced_photo = [] self.removed_photo = [] self.empty_family = [] self.broken_links = [] self.duplicate_links = [] self.broken_parent_links = [] self.fam_rel = [] self.invalid_events = [] self.invalid_birth_events = [] self.invalid_death_events = [] self.invalid_place_references = [] self.invalid_source_references = [] self.removed_name_format = [] self.progress = Utils.ProgressMeter(_('Checking database'),'') def family_errors(self): return len(self.broken_parent_links) + \ len(self.broken_links) + \ len(self.empty_family) + \ len(self.duplicate_links) def cleanup_deleted_name_formats(self): """ Permanently remove deleted name formats from db When user deletes custom name format those are not removed only marked as "inactive". This method does the cleanup of the name format table, as well as fixes the display_as, sort_as values for each Name in the db. """ self.progress.set_pass(_('Looking for invalid name format references'), self.db.get_number_of_people()) deleted_name_formats = [number for (number,name,fmt_str,act) in self.db.name_formats if not act] # remove the invalid references from all Name objects for person_handle in self.db.get_person_handles(): person = self.db.get_person_from_handle(person_handle) p_changed = False name = person.get_primary_name() if name.get_sort_as() in deleted_name_formats: name.set_sort_as(0) p_changed = True if name.get_display_as() in deleted_name_formats: name.set_display_as(0) p_changed = True if p_changed: person.set_primary_name(name) a_changed = False name_list = [] for name in person.get_alternate_names(): if name.get_sort_as() in deleted_name_formats: name.set_sort_as(0) a_changed = True if name.get_display_as() in deleted_name_formats: name.set_display_as(0) a_changed = True name_list.append(name) if a_changed: person.set_alternate_names(name_list) if p_changed or a_changed: self.db.commit_person(person,self.trans) self.removed_name_format.append(person_handle) self.progress.step() # update the custom name name format table for number in deleted_name_formats: _nd.del_name_format(number) self.db.name_formats = _nd.get_name_format(only_custom=True, only_active=False) def cleanup_duplicate_spouses(self): self.progress.set_pass(_('Looking for duplicate spouses'), self.db.get_number_of_people()) for handle in self.db.person_map.keys(): value = self.db.person_map[handle] p = RelLib.Person(value) splist = p.get_family_handle_list() if len(splist) != len(sets.Set(splist)): new_list = [] for value in splist: if value not in new_list: new_list.append(value) self.duplicate_links.append((handle,value)) p.set_family_handle_list(new_list) self.db.commit_person(p,self.trans) self.progress.step() def fix_encoding(self): self.progress.set_pass(_('Looking for character encoding errors'), self.db.get_number_of_media_objects()) for handle in self.db.media_map.keys(): data = self.db.media_map[handle] if type(data[2]) != unicode or type(data[4]) != unicode: obj = self.db.get_object_from_handle(handle) obj.path = Utils.fix_encoding( obj.path) obj.desc = Utils.fix_encoding( obj.desc) self.db.commit_media_object(obj,self.trans) self.progress.step() def check_for_broken_family_links(self): # Check persons referenced by the family objects fhandle_list = self.db.get_family_handles() self.progress.set_pass(_('Looking for broken family links'), len(fhandle_list) + self.db.get_number_of_people()) for family_handle in fhandle_list: family = self.db.get_family_from_handle(family_handle) father_handle = family.get_father_handle() mother_handle = family.get_mother_handle() if father_handle: father = self.db.get_person_from_handle(father_handle) if not father: # The person referenced by the father handle does not exist in the database family.set_father_handle(None) self.db.commit_family(family,self.trans) self.broken_parent_links.append((father_handle,family_handle)) father_handle = None if mother_handle: mother = self.db.get_person_from_handle(mother_handle) if not mother: # The person referenced by the mother handle does not exist in the database family.set_mother_handle(None) self.db.commit_family(family,self.trans) self.broken_parent_links.append((mother_handle,family_handle)) mother_handle = None if father_handle and father and family_handle not in father.get_family_handle_list(): # The referenced father has no reference back to the family self.broken_parent_links.append((father_handle,family_handle)) father.add_family_handle(family_handle) self.db.commit_person(father,self.trans) if mother_handle and mother \ and (family_handle not in mother.get_family_handle_list()): # The referenced mother has no reference back to the family self.broken_parent_links.append((mother_handle,family_handle)) mother.add_family_handle(family_handle) self.db.commit_person(mother,self.trans) for child_ref in family.get_child_ref_list(): child_handle = child_ref.ref child = self.db.get_person_from_handle(child_handle) if child: if family_handle == child.get_main_parents_family_handle(): continue if family_handle not in \ child.get_parent_family_handle_list(): # The referenced child has no reference to the family family.remove_child_ref(child_ref) self.db.commit_family(family,self.trans) self.broken_links.append((child_handle,family_handle)) else: # The person referenced by the child handle # does not exist in the database family.remove_child_ref(child_ref) self.db.commit_family(family,self.trans) self.broken_links.append((child_handle,family_handle)) self.progress.step() # Check persons membership in referenced families for person_handle in self.db.get_person_handles(): person = self.db.get_person_from_handle(person_handle) for par_family_handle in person.get_parent_family_handle_list(): family = self.db.get_family_from_handle(par_family_handle) if not family: person.remove_parent_family_handle(par_family_handle) self.db.commit_person(person,self.trans) continue for child_handle in [child_ref.ref for child_ref in family.get_child_ref_list()]: if child_handle == person_handle: break else: # Person is not a child in the referenced parent family person.remove_parent_family_handle(par_family_handle) self.db.commit_person(person,self.trans) self.broken_links.append((person_handle,family_handle)) for family_handle in person.get_family_handle_list(): family = self.db.get_family_from_handle(family_handle) if not family: # The referenced family does not exist in database person.remove_family_handle(family_handle) self.db.commit_person(person,self.trans) self.broken_links.append((person_handle,family_handle)) continue if family.get_father_handle() == person_handle: continue if family.get_mother_handle() == person_handle: continue # The person is not a member of the referenced family person.remove_family_handle(family_handle) self.db.commit_person(person,self.trans) self.broken_links.append((person_handle,family_handle)) self.progress.step() def cleanup_missing_photos(self,cl=0): self.progress.set_pass(_('Looking for unused objects'), len(self.db.get_media_object_handles())) missmedia_action = 0 #------------------------------------------------------------------------- def remove_clicked(): # File is lost => remove all references and the object itself for handle in self.db.get_person_handles(sort_handles=False): person = self.db.get_person_from_handle(handle) if person.has_media_reference(ObjectId): person.remove_media_references([ObjectId]) self.db.commit_person(person,self.trans) for handle in self.db.get_family_handles(): family = self.db.get_family_from_handle(handle) if family.has_media_reference(ObjectId): family.remove_media_references([ObjectId]) self.db.commit_family(family,self.trans) for handle in self.db.get_event_handles(): event = self.db.get_event_from_handle(handle) if event.has_media_reference(ObjectId): event.remove_media_references([ObjectId]) self.db.commit_event(event,self.trans) for handle in self.db.get_source_handles(): source = self.db.get_source_from_handle(handle) if source.has_media_reference(ObjectId): source.remove_media_references([ObjectId]) self.db.commit_source(source,self.trans) for handle in self.db.get_place_handles(): place = self.db.get_place_from_handle(handle) if place.has_media_reference(ObjectId): place.remove_media_references([ObjectId]) self.db.commit_place(place,self.trans) self.removed_photo.append(ObjectId) self.db.remove_object(ObjectId,self.trans) def leave_clicked(): self.bad_photo.append(ObjectId) def select_clicked(): # File is lost => select a file to replace the lost one def fs_close_window(obj): self.bad_photo.append(ObjectId) def fs_ok_clicked(obj): name = fs_top.get_filename() if os.path.isfile(name): obj = self.db.get_object_from_handle(ObjectId) obj.set_path(name) self.db.commit_media_object(obj,self.trans) self.replaced_photo.append(ObjectId) else: self.bad_photo.append(ObjectId) fs_top = gtk.FileSelection("%s - GRAMPS" % _("Select file")) fs_top.hide_fileop_buttons() fs_top.ok_button.connect('clicked',fs_ok_clicked) fs_top.cancel_button.connect('clicked',fs_close_window) fs_top.run() fs_top.destroy() #------------------------------------------------------------------------- for ObjectId in self.db.get_media_object_handles(): obj = self.db.get_object_from_handle(ObjectId) photo_name = obj.get_path() if photo_name is not None and photo_name != "" and not Utils.find_file(photo_name): if cl: print "Warning: media file %s was not found." \ % os.path.basename(photo_name) self.bad_photo.append(ObjectId) else: if missmedia_action == 0: mmd = MissingMediaDialog(_("Media object could not be found"), _("The file:\n %(file_name)s \nis referenced in the database, but no longer exists. " "The file may have been deleted or moved to a different location. " "You may choose to either remove the reference from the database, " "keep the reference to the missing file, or select a new file." ) % { 'file_name' : '%s' % photo_name }, remove_clicked, leave_clicked, select_clicked) missmedia_action = mmd.default_action elif missmedia_action == 1: remove_clicked() elif missmedia_action == 2: leave_clicked() elif missmedia_action == 3: select_clicked() self.progress.step() def cleanup_empty_families(self,automatic): fhandle_list = self.db.get_family_handles() self.progress.set_pass(_('Looking for empty families'), len(fhandle_list)) for family_handle in fhandle_list: self.progress.step() family = self.db.get_family_from_handle(family_handle) father_handle = family.get_father_handle() mother_handle = family.get_mother_handle() if not father_handle and not mother_handle: self.empty_family.append(family_handle) self.delete_empty_family(family_handle) continue elif not father_handle and len(family.get_child_ref_list()) == 0: person = self.db.get_person_from_handle(mother_handle) person.remove_family_handle(family_handle) self.db.commit_person(person,self.trans) self.db.remove_family(family_handle,self.trans) self.empty_family.append(family_handle) continue elif not mother_handle and len(family.get_child_ref_list()) == 0: person = self.db.get_person_from_handle(father_handle) person.remove_family_handle(family_handle) self.db.commit_person(person,self.trans) self.db.remove_family(family_handle,self.trans) self.empty_family.append(family_handle) continue def delete_empty_family(self,family_handle): for key in self.db.get_person_handles(sort_handles=False): child = self.db.get_person_from_handle(key) child.remove_parent_family_handle(family_handle) child.remove_family_handle(family_handle) self.db.remove_family(family_handle,self.trans) def check_parent_relationships(self): fhandle_list = self.db.get_family_handles() self.progress.set_pass(_('Looking for broken parent relationships'), len(fhandle_list)) for family_handle in fhandle_list: self.progress.step() family = self.db.get_family_from_handle(family_handle) mother_handle = family.get_mother_handle() father_handle = family.get_father_handle() father = None if father_handle: father = self.db.get_person_from_handle(father_handle) mother = None if mother_handle: mother = self.db.get_person_from_handle(mother_handle) rel_type = family.get_relationship() if not father_handle and not mother_handle: continue elif not father_handle: if mother and mother.get_gender() == RelLib.Person.MALE: # No father set and mother is male family.set_father_handle(mother_handle) family.set_mother_handle(None) self.db.commit_family(family,self.trans) elif not mother_handle: if father and father.get_gender() == RelLib.Person.FEMALE: # No mother set and father is female family.set_mother_handle(father_handle) family.set_father_handle(None) self.db.commit_family(family,self.trans) else: fgender = father.get_gender() mgender = mother.get_gender() if rel_type != RelLib.FamilyRelType.CIVIL_UNION: if fgender == mgender and fgender != RelLib.Person.UNKNOWN: family.set_relationship(RelLib.FamilyRelType.CIVIL_UNION) self.fam_rel.append(family_handle) self.db.commit_family(family,self.trans) elif fgender == RelLib.Person.FEMALE or mgender == RelLib.Person.MALE: family.set_father_handle(mother_handle) family.set_mother_handle(father_handle) self.fam_rel.append(family_handle) self.db.commit_family(family,self.trans) elif fgender != mgender: family.set_relationship(RelLib.FamilyRelType.UNKNOWN) self.fam_rel.append(family_handle) if fgender == RelLib.Person.FEMALE or mgender == RelLib.Person.MALE: family.set_father_handle(mother_handle) family.set_mother_handle(father_handle) self.db.commit_family(family,self.trans) def check_events(self): self.progress.set_pass(_('Looking for event problems'), self.db.get_number_of_people() +self.db.get_number_of_families()) for key in self.db.get_person_handles(sort_handles=False): self.progress.step() person = self.db.get_person_from_handle(key) birth_ref = person.get_birth_ref() if birth_ref: birth_handle = birth_ref.ref birth = self.db.get_event_from_handle(birth_handle) if not birth: # The birth event referenced by the birth handle # does not exist in the database person.set_birth_ref(None) self.db.commit_person(person,self.trans) self.invalid_events.append(key) else: if int(birth.get_type()) != RelLib.EventType.BIRTH: # Birth event was not of the type "Birth" birth.set_type(RelLib.EventType(RelLib.EventType.BIRTH)) self.db.commit_event(birth,self.trans) self.invalid_birth_events.append(key) death_ref = person.get_death_ref() if death_ref: death_handle = death_ref.ref death = self.db.get_event_from_handle(death_handle) if not death: # The death event referenced by the death handle # does not exist in the database person.set_death_ref(None) self.db.commit_person(person,self.trans) self.invalid_events.append(key) else: if int(death.get_type()) != RelLib.EventType.DEATH: # Death event was not of the type "Death" death.set_type(RelLib.EventType(RelLib.EventType.DEATH)) self.db.commit_event(death,self.trans) self.invalid_death_events.append(key) if person.get_event_ref_list(): for event_ref in person.get_event_ref_list(): event_handle = event_ref.ref event = self.db.get_event_from_handle(event_handle) if not event: # The event referenced by the person # does not exist in the database #TODO: There is no better way? person.get_event_ref_list().remove(event_ref) self.db.commit_person(person,self.trans) self.invalid_events.append(key) elif type(person.get_event_ref_list()) != list: # event_list is None or other garbage person.set_event_ref_list([]) self.db.commit_person(person,self.trans) self.invalid_events.append(key) for key in self.db.get_family_handles(): self.progress.step() family = self.db.get_family_from_handle(key) if family.get_event_ref_list(): for event_ref in family.get_event_ref_list(): event_handle = event_ref.ref event = self.db.get_event_from_handle(event_handle) if not event: # The event referenced by the family # does not exist in the database family.get_event_list().remove(event_ref) self.db.commit_family(family,self.trans) self.invalid_events.append(key) elif type(family.get_event_ref_list()) != list: # event_list is None or other garbage family.set_event_ref_list([]) self.db.commit_family(family,self.trans) self.invalid_events.append(key) def check_place_references(self): elist = self.db.get_event_handles() self.progress.set_pass(_('Looking for place reference problems'), len(elist)) for key in elist: event = self.db.get_event_from_handle(key) place_handle = event.get_place_handle() if place_handle: place = self.db.get_place_from_handle(place_handle) if not place: # The referenced place does not exist in the database event.set_place_handle("") self.db.commit_event(event,self.trans) self.invalid_place_references.append(key) def check_source_references(self): known_handles = self.db.get_source_handles() total = self.db.get_number_of_people() + self.db.get_number_of_families() + \ self.db.get_number_of_events() + self.db.get_number_of_places() + \ self.db.get_number_of_media_objects() + \ self.db.get_number_of_sources() self.progress.set_pass(_('Looking for source reference problems'), total) for handle in self.db.person_map.keys(): self.progress.step() info = self.db.person_map[handle] person = RelLib.Person() person.unserialize(info) handle_list = person.get_referenced_handles_recursively() bad_handles = [ item[1] for item in handle_list if item[0] == 'Source' and item[1] not in known_handles ] if bad_handles: person.remove_source_references(bad_handles) self.db.commit_person(person,self.trans) new_bad_handles = [handle for handle in bad_handles if handle not in self.invalid_source_references] self.invalid_source_references += new_bad_handles for handle in self.db.family_map.keys(): self.progress.step() info = self.db.family_map[handle] family = RelLib.Family() family.unserialize(info) handle_list = family.get_referenced_handles_recursively() bad_handles = [ item[1] for item in handle_list if item[0] == 'Source' and item[1] not in known_handles ] if bad_handles: family.remove_source_references(bad_handles) self.db.commit_family(family,self.trans) new_bad_handles = [handle for handle in bad_handles if handle not in self.invalid_source_references] self.invalid_source_references += new_bad_handles for handle in self.db.place_map.keys(): self.progress.step() info = self.db.place_map[handle] place = RelLib.Place() place.unserialize(info) handle_list = place.get_referenced_handles_recursively() bad_handles = [ item[1] for item in handle_list if item[0] == 'Source' and item[1] not in known_handles ] if bad_handles: place.remove_source_references(bad_handles) self.db.commit_place(place,self.trans) new_bad_handles = [handle for handle in bad_handles if handle not in self.invalid_source_references] self.invalid_source_references += new_bad_handles for handle in known_handles: self.progress.step() info = self.db.source_map[handle] source = RelLib.Source() source.unserialize(info) handle_list = source.get_referenced_handles_recursively() bad_handles = [ item[1] for item in handle_list if item[0] == 'Source' and item[1] not in known_handles ] if bad_handles: source.remove_source_references(bad_handles) self.db.commit_source(source,self.trans) new_bad_handles = [handle for handle in bad_handles if handle not in self.invalid_source_references] self.invalid_source_references += new_bad_handles for handle in self.db.media_map.keys(): self.progress.step() info = self.db.media_map[handle] obj = RelLib.MediaObject() obj.unserialize(info) handle_list = obj.get_referenced_handles_recursively() bad_handles = [ item[1] for item in handle_list if item[0] == 'Source' and item[1] not in known_handles ] if bad_handles: obj.remove_source_references(bad_handles) self.db.commit_object(obj,self.trans) new_bad_handles = [handle for handle in bad_handles if handle not in self.invalid_source_references] self.invalid_source_references += new_bad_handles for handle in self.db.event_map.keys(): self.progress.step() info = self.db.event_map[handle] event = RelLib.Event() event.unserialize(info) handle_list = event.get_referenced_handles_recursively() bad_handles = [ item[1] for item in handle_list if item[0] == 'Source' and item[1] not in known_handles ] if bad_handles: event.remove_source_references(bad_handles) self.db.commit_event(event,self.trans) new_bad_handles = [handle for handle in bad_handles if handle not in self.invalid_source_references] self.invalid_source_references += new_bad_handles def build_report(self,cl=0): self.progress.close() bad_photos = len(self.bad_photo) replaced_photos = len(self.replaced_photo) removed_photos = len(self.removed_photo) photos = bad_photos + replaced_photos + removed_photos efam = len(self.empty_family) blink = len(self.broken_links) plink = len(self.broken_parent_links) slink = len(self.duplicate_links) rel = len(self.fam_rel) event_invalid = len(self.invalid_events) birth_invalid = len(self.invalid_birth_events) death_invalid = len(self.invalid_death_events) person = birth_invalid + death_invalid place_references = len(self.invalid_place_references) source_references = len(self.invalid_source_references) name_format = len(self.removed_name_format) errors = blink + efam + photos + rel + person \ + event_invalid + place_references + source_references if errors == 0: if cl: print "No errors were found: the database has passed internal checks." else: OkDialog(_("No errors were found"), _('The database has passed internal checks')) return 0 self.text = cStringIO.StringIO() if blink > 0: if blink == 1: self.text.write(_("1 broken child/family link was fixed\n")) else: self.text.write(_("%d broken child/family links were found\n") % blink) for (person_handle,family_handle) in self.broken_links: person = self.db.get_person_from_handle(person_handle) if person: cn = person.get_primary_name().get_name() else: cn = _("Non existing child") try: family = self.db.get_family_from_handle(family_handle) pn = Utils.family_name(family,self.db) except: pn = _("Unknown") self.text.write('\t') self.text.write(_("%s was removed from the family of %s\n") % (cn,pn)) if plink > 0: if plink == 1: self.text.write(_("1 broken spouse/family link was fixed\n")) else: self.text.write(_("%d broken spouse/family links were found\n") % plink) for (person_handle,family_handle) in self.broken_parent_links: person = self.db.get_person_from_handle(person_handle) if person: cn = person.get_primary_name().get_name() else: cn = _("Non existing person") family = self.db.get_family_from_handle(family_handle) if family: pn = Utils.family_name(family,self.db) else: pn = family_handle self.text.write('\t') self.text.write(_("%s was restored to the family of %s\n") % (cn,pn)) if slink > 0: if slink == 1: self.text.write(_("1 duplicate spouse/family link was found\n")) else: self.text.write(_("%d duplicate spouse/family links were found\n") % slink) for (person_handle,family_handle) in self.broken_parent_links: person = self.db.get_person_from_handle(person_handle) if person: cn = person.get_primary_name().get_name() else: cn = _("Non existing person") family = self.db.get_family_from_handle(family_handle) if family: pn = Utils.family_name(family,self.db) else: pn = _("None") self.text.write('\t') self.text.write(_("%s was restored to the family of %s\n") % (cn,pn)) if efam == 1: self.text.write(_("1 empty family was found\n")) self.text.write("\t%s\n" % self.empty_family[0]) elif efam > 1: self.text.write(_("%d empty families were found\n") % efam) if rel == 1: self.text.write(_("1 corrupted family relationship fixed\n")) elif rel > 1: self.text.write(_("%d corrupted family relationship fixed\n") % rel) if photos == 1: self.text.write(_("1 media object was referenced, but not found\n")) elif photos > 1: self.text.write(_("%d media objects were referenced, but not found\n") % photos) if bad_photos == 1: self.text.write(_("Reference to 1 missing media object was kept\n")) elif bad_photos > 1: self.text.write(_("References to %d media objects were kept\n") % bad_photos) if replaced_photos == 1: self.text.write(_("1 missing media object was replaced\n")) elif replaced_photos > 1: self.text.write(_("%d missing media objects were replaced\n") % replaced_photos) if removed_photos == 1: self.text.write(_("1 missing media object was removed\n")) elif removed_photos > 1: self.text.write(_("%d missing media objects were removed\n") % removed_photos) if event_invalid == 1: self.text.write(_("1 invalid event reference was removed\n")) elif event_invalid > 1: self.text.write(_("%d invalid event references were removed\n") % event_invalid) if birth_invalid == 1: self.text.write(_("1 invalid birth event name was fixed\n")) elif birth_invalid > 1: self.text.write(_("%d invalid birth event names were fixed\n") % birth_invalid) if death_invalid == 1: self.text.write(_("1 invalid death event name was fixed\n")) elif death_invalid > 1: self.text.write(_("%d invalid death event names were fixed\n") % death_invalid) if place_references == 1: self.text.write(_("1 place was referenced but not found\n")) elif place_references > 1: self.text.write(_("%d places were referenced, but not found\n") % place_references) if source_references == 1: self.text.write(_("1 source was referenced but not found\n")) elif source_references > 1: self.text.write(_("%d sources were referenced, but not found\n") % source_references) if name_format == 1: self.text.write(_("1 invalid name format reference was removed\n")) elif name_format > 1: self.text.write(_("%d invalid name format references were removed\n") % name_format) return errors #------------------------------------------------------------------------- # # Display the results # #------------------------------------------------------------------------- class Report(ManagedWindow.ManagedWindow): def __init__(self, uistate, text, cl=0): if cl: print text return ManagedWindow.ManagedWindow.__init__(self, uistate, [], self) base = os.path.dirname(__file__) glade_file = base + os.sep + "summary.glade" topDialog = gtk.glade.XML(glade_file,"summary","gramps") topDialog.get_widget("close").connect('clicked',self.close) window = topDialog.get_widget("summary") textwindow = topDialog.get_widget("textwindow") textwindow.get_buffer().set_text(text) self.set_window(window, topDialog.get_widget("title"), _("Integrity Check Results")) self.show() def build_menu_names(self, obj): return (_('Check and Repair'),None) #------------------------------------------------------------------------ # # # #------------------------------------------------------------------------ class CheckOptions(Tool.ToolOptions): """ Defines options and provides handling interface. """ def __init__(self,name,person_id=None): Tool.ToolOptions.__init__(self,name,person_id) #------------------------------------------------------------------------ # # # #------------------------------------------------------------------------ register_tool( name = 'check', category = Tool.TOOL_DBFIX, tool_class = Check, options_class = CheckOptions, modes = Tool.MODE_GUI | Tool.MODE_CLI, translated_name = _("Check and repair database"), status = _("Stable"), author_name = "Donald N. Allingham", author_email = "don@gramps-project.org", description=_("Checks the database for integrity problems, fixing the problems that it can") )