# # 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 #------------------------------------------------------------------------- # # 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.Tool): def __init__(self, dbstate, uistate, options_class, name, callback=None): Tool.Tool.__init__(self, dbstate, options_class, name) 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) 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.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_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 for family_type in child.get_parent_family_handle_list(): if family_type[0] == family_handle: break else: # The referenced child has no reference back 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 family_type in person.get_parent_family_handle_list(): family = self.db.get_family_from_handle(family_type[0]) if not family: person.remove_parent_family_handle(family_type[0]) self.db.commit_person(person,self.trans) continue for child_handle in [x.ref for x 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(family_type[0]) 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) 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) 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") )