# # Gramps - a GTK+/GNOME based genealogy program # # Copyright (C) 2000-2003 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 # """The core library of the GRAMPS database""" __author__ = "Donald N. Allingham" __version__ = "$Revision$" #------------------------------------------------------------------------- # # standard python modules # #------------------------------------------------------------------------- from re import compile from string import strip, upper import os #------------------------------------------------------------------------- # # GRAMPS modules # #------------------------------------------------------------------------- from Date import Date, SingleDate, compare_dates, not_too_old import GrampsCfg import sort import const #------------------------------------------------------------------------- # # Attempt to load the ZODB libraries, otherwise provide alternates # #------------------------------------------------------------------------- try: from ZODB import Persistent except ImportError: class Persistent: """Dummy class used if ZODB is not installed on the system""" pass #------------------------------------------------------------------------- # # Confidence levels # #------------------------------------------------------------------------- CONF_VERY_HIGH = 4 CONF_HIGH = 3 CONF_NORMAL = 2 CONF_LOW = 1 CONF_VERY_LOW = 0 #------------------------------------------------------------------------- # # ID regular expression # #------------------------------------------------------------------------- _id_reg = compile("%\d+d") def extlist(lst): """Returns a copy of the passed list""" return lst[:] # Make a copy. def extmap(map): """Returns a map""" return map class SourceNote(Persistent): """Base class for storing source references and notes""" def __init__(self,source=None): """Create a new SourceNote, copying from source if not None""" self.source_list = [] if source: if len(source.source_list) > 0: for sref in source.source_list: self.source_list.append(SourceRef(sref)) if source.note: self.note = Note(source.note.get()) else: self.note = None else: self.note = None def addSourceRef(self,id) : """Set the source reference""" self.source_list.append(id) self._p_changed = 1 def getSourceRefList(self) : """Return the source reference""" return extlist(self.source_list) def setSourceRefList(self,list) : """Replaces the source reference""" self.source_list = list def setNote(self,text): """Set the note to the given text""" if self.note == None: self.note = Note() self.note.set(text) def getNote(self): """Return the current note""" if self.note == None: return "" else: return self.note.get() def setNoteObj(self,obj): """Change the note object instance to obj""" self.note = obj def getNoteObj(self): """Return in note instance, not just the text""" return self.note def unique_note(self): """Creates a unique instance of the current note""" self.note = Note(self.note.get()) class LdsOrd(SourceNote): """LDS Ordinance support""" def __init__(self,source=None): """Creates a LDS Ordinance instance""" SourceNote.__init__(self,source) if source: self.famc = source.famc self.date = Date(source.date) self.temple = source.temple self.status = source.status self.place = source.place else: self.famc = None self.date = None self.temple = "" self.status = 0 self.place = None def getPlaceName(self): """returns the title of the Place associated with the Ordinance""" if self.place: return self.place.get_title() else: return "" def setPlace(self,place): """sets the Place instance of the Event""" self.place = place def getPlace(self): """returns the Place instance of the Event""" return self.place def setFamily(self,family): """Sets the family associated with the LDS ordinance""" self.famc = family def getFamily(self): """Gets the family associated with the LDS ordinance""" return self.famc def setStatus(self,val): """Sets the status of the LDS ordinance""" self.status = val def getStatus(self): """Gets the status of the LDS ordinance""" return self.status def setDate(self, date) : """attempts to sets the date of the LdsOrd instance""" if not self.date: self.date = Date() self.date.set(date) def getDate(self) : """returns a string representation of the date of the LdsOrd instance""" if self.date: return self.date.getDate() return "" def getDateObj(self): """returns the Date object associated with the LdsOrd""" if not self.date: self.date = Date() return self.date def setDateObj(self,date): """sets the Date object associated with the LdsOrd""" self.date = date def setTemple(self,temple): """Sets the temple assocated with the LDS ordinance""" self.temple = temple def getTemple(self): """Gets the temple assocated with the LDS ordinance""" return self.temple def isEmpty(self): """Returns 1 if the LDS ordidance is actually empty""" if (self.famc or (self.date and not self.date.isEmpty()) or self.temple or self.status or self.place): return 0 else: return 1 def are_equal(self,other): """returns 1 if the specified ordinance is the same as the instance""" if other == None: if self.isEmpty(): return 1 else: return 0 if (self.famc != other.famc or self.place != other.place or self.temple != other.temple or compare_dates(self.getDateObj(),other.getDateObj()) or len(self.getSourceRefList()) != len(other.getSourceRefList())): return 0 index = 0 olist = other.getSourceRefList() for a in self.getSourceRefList(): if not a.are_equal(olist[index]): return 0 index = index + 1 return 1 class DataObj(SourceNote): """Base class for data elements, providing source, note, and privacy data""" def __init__(self,source=None): """Create a new DataObj, copying data from a source object if provided""" SourceNote.__init__(self,source) if source: self.private = source.private else: self.private = 0 def setPrivacy(self,val): """Sets or clears the privacy flag of the data""" self.private = val def getPrivacy(self): """Returns the privacy level of the data""" return self.private class Place(SourceNote): """Contains information related to a place, including multiple address information (since place names can change with time), longitude, latitude, a collection of images and URLs, a note and a source""" def __init__(self,source=None): """Creates a new Place object. source - Object to copy. If none supplied, create an empty place object""" SourceNote.__init__(self,source) if source: self.long = source.log self.lat = source.lat self.title = source.title self.main_loc = Location(source.main_loc) self.alt_loc = [] for loc in source.alt_loc: self.alt_loc = Location(loc) self.id = source.id self.urls = [] for u in source.urls: self.urls.append(Url(u)) self.photoList = [] for photo in source.photoList: self.photoList.append(ObjectRef(photo)) else: self.long = "" self.lat = "" self.title = "" self.main_loc = None self.alt_loc = [] self.id = "" self.urls = [] self.photoList = [] def getUrlList(self): """Return the list of URLs""" return extlist(self.urls) def setUrlList(self,list): """Replace the current URL list with the new one""" self.urls = list def addUrl(self,url): """Add a URL to the URL list""" self.urls.append(url) self._p_changed = 1 def setId(self,id): """Sets the gramps ID for the place object""" self.id = id def getId(self): """Returns the gramps ID for the place object""" return self.id def set_title(self,name): """Sets the title of the place object""" self.title = name def get_title(self): """Returns the title of the place object""" return self.title def set_longitude(self,long): """Sets the longitude of the place""" self.long = long def get_longitude(self): """Returns the longitude of the place""" return self.long def set_latitude(self,long): """Sets the latitude of the place""" self.lat = long def get_latitude(self): """Returns the latitude of the place""" return self.lat def get_main_location(self): """Returns the Location object representing the primary information""" if not self.main_loc: self.main_loc = Location() return self.main_loc def set_main_location(self,loc): """Assigns the main location to the Location object passed""" self.main_loc = loc def get_alternate_locations(self): """Returns a list of alternate location information objects""" return extlist(self.alt_loc) def set_alternate_locations(self,list): """Replaces the current alternate location list with the new one""" self.alt_loc = list def add_alternate_locations(self,loc): """Adds a Location to the alternate location list""" if loc not in self.alt_loc: self.alt_loc.append(loc) self._p_changed = 1 def addPhoto(self,photo): """Adds a Photo object to the place object's image list""" self.photoList.append(photo) self._p_changed = 1 def getPhotoList(self): """Returns the list of Photo objects""" return extlist(self.photoList) def setPhotoList(self,list): """Sets the list of Photo objects""" self.photoList = list def getDisplayInfo(self): """Gets the display information associated with the object. This includes the information that is used for display and for sorting. Returns a list consisting of 13 strings. These are: Place Title, Place ID, Main Location Parish, Main Location County, Main Location City, Main Location State/Province, Main Location Country, upper case Place Title, upper case Parish, upper case city, upper case county, upper case state, upper case country""" if self.main_loc: return [self.title,self.id,self.main_loc.parish,self.main_loc.city, self.main_loc.county,self.main_loc.state,self.main_loc.country, self.title.upper(), self.main_loc.parish.upper(), self.main_loc.city.upper(), self.main_loc.county.upper(), self.main_loc.state.upper(), self.main_loc.country.upper()] else: return [self.title,self.id,'','','','','',self.title.upper(), '','','','',''] class Researcher(Persistent): """Contains the information about the owner of the database""" def __init__(self): """Initializes the Researcher object""" self.name = "" self.addr = "" self.city = "" self.state = "" self.country = "" self.postal = "" self.phone = "" self.email = "" def getName(self): """returns the database owner's name""" return self.name def getAddress(self): """returns the database owner's address""" return self.addr def getCity(self): """returns the database owner's city""" return self.city def getState(self): """returns the database owner's state""" return self.state def getCountry(self): """returns the database owner's country""" return self.country def getPostalCode(self): """returns the database owner's postal code""" return self.postal def getPhone(self): """returns the database owner's phone number""" return self.phone def getEmail(self): """returns the database owner's email""" return self.email def set(self,name,addr,city,state,country,postal,phone,email): """sets the information about the database owner""" if name: self.name = strip(name) if addr: self.addr = strip(addr) if city: self.city = strip(city) if state: self.state = strip(state) if country: self.country = strip(country) if postal: self.postal = strip(postal) if phone: self.phone = strip(phone) if email: self.email = strip(email) class Location(Persistent): """Provides information about a place, including city, county, state, and country. Multiple Location objects can represent the same place, since names of citys, countys, states, and even countries can change with time""" def __init__(self,source=None): """creates a Location object, copying from the source object if it exists""" if source: self.city = source.city self.parish = source.parish self.county = source.county self.state = source.state self.country = source.country else: self.city = "" self.parish = "" self.county = "" self.state = "" self.country = "" def is_empty(self): return self.city=="" and self.county=="" and self.state=="" and self.country=="" def set_city(self,data): """sets the city name of the Location object""" self.city = data def get_city(self): """returns the city name of the Location object""" return self.city def set_parish(self,data): """sets the religious parish name""" self.parish = data def get_parish(self): """gets the religious parish name""" return self.parish def set_county(self,data): """sets the county name of the Location object""" self.county = data def get_county(self): """returns the county name of the Location object""" return self.county def set_state(self,data): """sets the state name of the Location object""" self.state = data def get_state(self): """returns the state name of the Location object""" return self.state def set_country(self,data): """sets the country name of the Location object""" self.country = data def get_country(self): """returns the country name of the Location object""" return self.country class Note(Persistent): """Provides general text information""" def __init__(self,text = ""): """create a new Note object from the passed string""" self.text = text def set(self,text): """set the note contents to the passed string""" self.text = text def get(self): """return the note contents""" return self.text def append(self,text): """adds the text to the note's contents""" self.text = self.text + text class Photo(SourceNote): """Containter for information about an image file, including location, description and privacy""" def __init__(self,source=None): """Create a new Photo object, copying from the source if provided""" SourceNote.__init__(self,source) self.attrlist = [] if source: self.path = source.path self.mime = source.mime self.local = source.local self.desc = source.desc self.id = source.id for attr in source.attrlist: self.attrlist.append(Attribute(attr)) else: self.id = "" self.local = 0 self.path = "" self.mime = "" self.desc = "" def setLocal(self,val): """set or clear the local flag""" self.local = val def getLocal(self): """return the local flag""" return self.local def setId(self,id): """Sets the gramps ID for the place object""" self.id = id def getId(self): """Returns the gramps ID for the place object""" return self.id def setMimeType(self,type): self.mime = type def getMimeType(self): return self.mime def setPath(self,path): """set the file path to the passed path""" self.path = os.path.normpath(path) def getPath(self): """return the file path""" return self.path def setDescription(self,text): """sets the description of the image""" self.desc = text def getDescription(self): """returns the description of the image""" return self.desc def addAttribute(self,attr): """Adds a propery to the Photo object. This is not used by gramps, but provides a means for XML users to attach other properties to the image""" self.attrlist.append(attr) self._p_changed = 1 def getAttributeList(self): """returns the property list associated with the image""" return extlist(self.attrlist) def setAttributeList(self,list): self.attrlist = list class ObjectRef(Persistent): """Object reference class""" def __init__(self,source=None): self.attrlist = [] if source: self.private = source.private self.ref = source.ref self.note = Note(source.note) for attr in source.attrlist: self.attrlist.append(Attribute(attr)) else: self.private = 0 self.ref = None self.note = None def setPrivacy(self,val): """Sets or clears the privacy flag of the data""" self.private = val def getPrivacy(self): """Returns the privacy level of the data""" return self.private def setReference(self,obj): self.ref = obj def getReference(self): return self.ref def setNote(self,text): """Set the note to the given text""" if self.note == None: self.note = Note() self.note.set(text) def getNote(self): """Return the current note""" if self.note == None: return "" else: return self.note.get() def setNoteObj(self,obj): """Change the note object instance to obj""" self.note = obj def getNoteObj(self): """Return in note instance, not just the text""" return self.note def unique_note(self): """Creates a unique instance of the current note""" self.note = Note(self.note.get()) def addAttribute(self,attr): """Adds a propery to the Photo object. This is not used by gramps, but provides a means for XML users to attach other properties to the image""" self.attrlist.append(attr) self._p_changed = 1 def getAttributeList(self): """returns the property list associated with the image""" return extlist(self.attrlist) def setAttributeList(self,list): """sets the property list associated with the image""" self.attrlist = list class Attribute(DataObj): """Provides a simple key/value pair for describing properties. Used by the Person and Family objects to store descriptive information.""" def __init__(self,source=None): """creates a new Attribute object, copying from the source if provided""" DataObj.__init__(self,source) if source: self.type = source.type self.value = source.value else: self.type = "" self.value = "" def setType(self,val): """sets the type (or key) of the Attribute instance""" self.type = val def getType(self): """returns the type (or key) or the Attribute instance""" return self.type def setValue(self,val): """sets the value of the Attribute instance""" self.value = val def getValue(self): """returns the value of the Attribute instance""" return self.value class Address(DataObj): """Provides address information for a person""" def __init__(self,source=None): """Creates a new Address instance, copying from the source if provided""" DataObj.__init__(self,source) if source: self.street = source.street self.city = source.city self.state = source.state self.country = source.country self.postal = source.postal self.date = Date(source.date) else: self.street = "" self.city = "" self.state = "" self.country = "" self.postal = "" self.date = Date() def setDate(self,text): """attempts to sets the date that the person lived at the address from the passed string""" self.date.set(text) def getDate(self): """returns a string representation of the date that the person lived at the address""" return self.date.getDate() def getPrefDate(self): """returns a string representation of the date that the person lived at the address""" return self.date.getPrefDate() def getDateObj(self): """returns the Date object associated with the Address""" return self.date def setDateObj(self,obj): """sets the Date object associated with the Address""" self.date = obj def setStreet(self,val): """sets the street portion of the Address""" self.street = val def getStreet(self): """returns the street portion of the Address""" return self.street def setCity(self,val): """sets the city portion of the Address""" self.city = val def getCity(self): """returns the city portion of the Address""" return self.city def setState(self,val): """sets the state portion of the Address""" self.state = val def getState(self): """returns the state portion of the Address""" return self.state def setCountry(self,val): """sets the country portion of the Address""" self.country = val def getCountry(self): """returns the country portion of the Address""" return self.country def setPostal(self,val): """sets the postal code of the Address""" self.postal = val def getPostal(self): """returns the postal code of the Address""" return self.postal class Name(DataObj): """Provides name information about a person. A person may have more that one name throughout his or her life.""" def __init__(self,source=None): """creates a new Name instance, copying from the source if provided""" DataObj.__init__(self,source) if source: self.FirstName = source.FirstName self.Surname = source.Surname self.Suffix = source.Suffix self.Title = source.Title self.type = source.type self.Prefix = source.Prefix else: self.FirstName = "" self.Surname = "" self.Suffix = "" self.Title = "" self.type = "Birth Name" self.Prefix = "" def getSurnamePrefix(self): return self.Prefix def setSurnamePrefix(self,val): self.Prefix = val def setType(self,type): """sets the type of the Name instance""" self.type = type def getType(self): """returns the type of the Name instance""" return self.type def setFirstName(self,name): """sets the given name for the Name instance""" self.FirstName = name def setSurname(self,name): """sets the surname (or last name) for the Name instance""" self.Surname = name def setSuffix(self,name): """sets the suffix (such as Jr., III, etc.) for the Name instance""" self.Suffix = name def getFirstName(self): """returns the given name for the Name instance""" return self.FirstName def getSurname(self): """returns the surname (or last name) for the Name instance""" return self.Surname def getUpperSurname(self): """returns the surname (or last name) for the Name instance""" return self.Surname.upper() def getSuffix(self): """returns the suffix for the Name instance""" return self.Suffix def setTitle(self,title): """sets the title (Dr., Reverand, Captain) for the Name instance""" self.Title = title def getTitle(self): """returns the title for the Name instance""" return self.Title def getName(self): """returns a name string built from the components of the Name instance, in the form of Surname, Firstname""" if self.Suffix: if self.Prefix: return "%s %s, %s %s" % (self.Prefix, self.Surname, self.FirstName, self.Suffix) else: return "%s, %s %s" % (self.Surname, self.FirstName, self.Suffix) else: if self.Prefix: return "%s %s, %s" % (self.Prefix,self.Surname, self.FirstName) else: return "%s, %s" % (self.Surname, self.FirstName) def getUpperName(self): """returns a name string built from the components of the Name instance, in the form of Surname, Firstname""" if self.Suffix: if self.Prefix: return "%s %s, %s %s" % (self.Prefix.upper(), self.Surname.upper(), self.FirstName, self.Suffix) else: return "%s, %s %s" % (self.Surname.upper(), self.FirstName, self.Suffix) else: if self.Prefix: return "%s %s, %s" % (self.Prefix.upper(), self.Surname.upper(), self.FirstName) else: return "%s, %s" % (self.Surname.upper(), self.FirstName) def getRegularName(self): """returns a name string built from the components of the Name instance, in the form of Firstname Surname""" if (self.Suffix == ""): if self.Prefix: return "%s %s %s" % (self.FirstName, self.Prefix, self.Surname) else: return "%s %s" % (self.FirstName, self.Surname) else: if self.Prefix: return "%s %s %s, %s" % (self.FirstName, self.Prefix, self.Surname, self.Suffix) else: return "%s %s, %s" % (self.FirstName, self.Surname, self.Suffix) def getRegularUpperName(self): """returns a name string built from the components of the Name instance, in the form of Firstname Surname""" if (self.Suffix == ""): if self.Prefix: return "%s %s %s" % (self.FirstName, self.Prefix.upper(), self.Surname.upper()) else: return "%s %s" % (self.FirstName, self.Surname.upper()) else: if self.Prefix: return "%s %s %s, %s" % (self.FirstName, self.Prefix.upper(), self.Surname.upper(), self.Suffix) else: return "%s %s, %s" % (self.FirstName, self.Surname.upper(), self.Suffix) def are_equal(self,other): """compares to names to see if they are equal, return 0 if they are not""" if self.FirstName != other.FirstName: return 0 if self.Surname != other.Surname: return 0 if self.Prefix != other.Prefix: return 0 if self.Suffix != other.Suffix: return 0 if self.Title != other.Title: return 0 if self.type != other.type: return 0 if self.private != other.private: return 0 if self.getNote() != other.getNote(): return 0 if len(self.getSourceRefList()) != len(other.getSourceRefList()): return 0 index = 0 olist = other.getSourceRefList() for a in self.getSourceRefList(): if not a.are_equal(olist[index]): return 0 index = index + 1 return 1 class Url(Persistent): """Contains information related to internet Uniform Resource Locators, allowing gramps to store information about internet resources""" def __init__(self,source=None): """creates a new URL instance, copying from the source if present""" if source: self.path = source.path self.desc = source.desc self.private = source.private else: self.path = "" self.desc = "" self.private = 0 def setPrivacy(self,val): """sets the privacy flag for the URL instance""" self.private = val def getPrivacy(self): """returns the privacy flag for the URL instance""" return self.private def set_path(self,path): """sets the URL path""" self.path = path def get_path(self): """returns the URL path""" return self.path def set_description(self,description): """sets the description of the URL""" self.desc = description def get_description(self): """returns the description of the URL""" return self.desc def are_equal(self,other): """returns 1 if the specified URL is the same as the instance""" if other == None: return 0 if self.path != other.path: return 0 if self.desc != other.desc: return 0 return 1 class Person(Persistent): """Represents an individual person in the gramps database""" unknown = 2 male = 1 female = 0 def __init__(self,id=""): """creates a new Person instance""" self.id = id self.PrimaryName = None self.EventList = [] self.FamilyList = [] self.AltFamilyList = [] self.photoList = [] self.nickname = "" self.alternateNames = [] self.gender = 2 self.death = None self.birth = None self.addressList = [] self.attributeList = [] self.urls = [] self.note = None self.paf_uid = "" self.position = None self.ancestor = None self.lds_bapt = None self.lds_endow = None self.lds_seal = None # We hold a reference to the GrampsDB so that we can maintain # its genderStats. It doesn't get set here, but from # GenderStats.count_person. self.db = None def getDisplayInfo(self): if self.gender == Person.male: gender = const.male elif self.gender == Person.female: gender = const.female else: gender = const.unknown bday = self.getBirth().getDateObj() dday = self.getDeath().getDateObj() return [ GrampsCfg.display_name(self),self.id,gender, bday.getQuoteDate(), dday.getQuoteDate(), sort.build_sort_name(self.getPrimaryName()), sort.build_sort_date(bday),sort.build_sort_date(dday), GrampsCfg.display_surname(self.PrimaryName)] def setPrimaryName(self,name): """sets the primary name of the Person to the specified Name instance""" db = self.db if db: db.genderStats.uncount_person (self) self.PrimaryName = name if db: db.genderStats.count_person (self, db) def getPrimaryName(self): """returns the Name instance marked as the Person's primary name""" if not self.PrimaryName: self.PrimaryName = Name() return self.PrimaryName def setPafUid(self,val): """sets Personal Ancestral File UID value""" self.paf_uid = val def getPafUid(self) : """returns the Personal Ancestral File UID value""" return self.paf_uid def getAlternateNames(self): """returns the list of alternate Names""" return extlist(self.alternateNames) def setAlternateNames(self,list): """changes the list of alternate names to the passed list""" self.alternateNames = list def addAlternateName(self,name): """adds an alternate Name instance to the list""" self.alternateNames.append(name) self._p_changed = 1 def getUrlList(self): """returns the list of URL instances""" return extlist(self.urls) def setUrlList(self,list): """sets the list of URL instances to list""" self.urls = list def addUrl(self,url): """adds a URL instance to the list""" self.urls.append(url) self._p_changed = 1 def setId(self,id): """sets the gramps ID for the Person""" self.id = str(id) def getId(self): """returns the gramps ID for the Person""" return self.id def setNickName(self,name): """sets the nickname for the Person""" self.nickname = name def getNickName(self) : """returns the nickname for the Person""" return self.nickname def setGender(self,val) : """sets the gender of the Person""" db = self.db if db: db.genderStats.uncount_person (self) self.gender = val if db: db.genderStats.count_person (self, db) def getGender(self) : """returns the gender of the Person""" return self.gender def setBirth(self,event) : """sets the birth event to the passed event""" self.birth = event def setDeath(self,event) : """sets the death event to the passed event""" self.death = event def getBirth(self) : """returns the birth event""" if self.birth == None: self.birth = Event() self.birth.name = "Birth" return self.birth def getDeath(self) : """returns the death event""" if self.death == None: self.death = Event() self.death.name = "Death" return self.death def getValidDeath(self): e = self.death if e == None: return None if e.place == None and (e.date == None or not e.date.getValid()) and \ e.description == "" and e.cause == "" and e.witness == None: return None else: return e def getValidBirth(self): e = self.birth if e == None: return None if e.place == None and (e.date == None or not e.date.getValid()) and \ e.description == "" and e.cause == "" and e.witness == None: return None else: return e def addPhoto(self,photo): """adds a Photo instance to the image list""" self.photoList.append(photo) self._p_changed = 1 def getPhotoList(self): """returns the list of Photos""" return extlist(self.photoList) def setPhotoList(self,list): """Sets the list of Photo objects""" self.photoList = list def addEvent(self,event): """adds an Event to the event list""" self.EventList.append(event) self._p_changed = 1 def getEventList(self): """returns the list of Event instances""" return extlist(self.EventList) def setEventList(self,list): """sets the event list to the passed list""" self.EventList = list def addFamily(self,family): """adds the specified Family instance to the list of families/marriages/partnerships in which the person is a parent or spouse""" self.FamilyList.append(family) self._p_changed = 1 def setPreferred(self,family): if family in self.FamilyList: self.FamilyList.remove(family) self.FamilyList = [family] + self.FamilyList def getFamilyList(self) : """returns the list of Family instances in which the person is a parent or spouse""" return extlist(self.FamilyList) def clearFamilyList(self) : self.FamilyList = [] def removeFamily(self,family): """removes the specified Family instance from the list of marriages/partnerships""" if family in self.FamilyList: self.FamilyList.remove(family) self._p_changed = 1 def addAddress(self,address): """adds the Address instance to the list of addresses""" self.addressList.append(address) self._p_changed = 1 def removeAddress(self,address): """removes the Address instance from the list of addresses""" if address in self.addressList: self.addressList.remove(address) self._p_changed = 1 def getAddressList(self): """returns the list of addresses""" return extlist(self.addressList) def setAddressList(self,list): """sets the address list to the specified list""" self.addressList = list def addAttribute(self,attribute): """adds an Attribute instance to the attribute list""" self.attributeList.append(attribute) self._p_changed = 1 def removeAttribute(self,attribute): """removes the specified Attribute instance from the attribute list""" if attribute in self.attributeList: self.attributeList.remove(attribute) self._p_changed = 1 def getAttributeList(self): """returns the attribute list""" return extlist(self.attributeList) def setAttributeList(self,list): """sets the attribute list to the specified list""" self.attributeList = list def getParentList(self): """returns the list of alternate Family instances, in which the Person is a child of the family, but not a natural child of both parents""" return extlist(self.AltFamilyList) def addAltFamily(self,family,mrel,frel): """adds a Family to the alternate family list, indicating the relationship to the mother (mrel) and the father (frel)""" self.AltFamilyList.append((family,mrel,frel)) self._p_changed = 1 def clearAltFamilyList(self): self.AltFamilyList = [] def removeAltFamily(self,family): """removes a Family instance from the alternate family list""" for f in self.AltFamilyList[:]: if f[0] == family: self.AltFamilyList.remove(f) self._p_changed = 1 return f else: return None def changeAltFamily(self,family,mrel,frel): """removes a Family instance from the alternate family list""" index = 0 for f in self.AltFamilyList[:]: if f[0] == family: self.AltFamilyList[index] = (family,mrel,frel) self._p_changed = 1 index += 1 def has_family(self,family): for f in self.AltFamilyList: if f[0] == family: return f else: return None def setMainParents(self,family): """sets the main Family of the Person, the Family in which the Person is a natural born child""" f = self.removeAltFamily(family) if f: self.AltFamilyList = [f] + self.AltFamilyList def getMainParents(self): """returns the main Family of the Person, the Family in which the Person is a natural born child""" if len(self.AltFamilyList) == 0: return None else: return self.AltFamilyList[0][0] def getMainParentsRel(self): """returns the main Family of the Person, the Family in which the Person is a natural born child""" if len(self.AltFamilyList) == 0: return (None,None,None) else: return self.AltFamilyList[0] def setNote(self,text): """sets the note attached to the Person to the passed text""" if self.note == None: self.note = Note() self.note.set(text) def getNote(self) : """returns the text of the note attached to the Person""" if self.note == None: return "" else: return self.note.get() def setNoteObj(self,note): """sets the Note instance attached to the Person""" self.note = note def getNoteObj(self): """returns the Note instance attached to the Person""" if self.note == None: self.note = Note() return self.note def unique_note(self): """Creates a unique instance of the current note""" self.note = Note(self.note.get()) def setPosition(self,pos): """sets a graphical location pointer for graphic display (x,y)""" self.position = pos def getPosition(self): """returns a graphical location pointer for graphic display (x,y)""" return self.position def setAncestor(self, value): """set ancestor flag and recurse""" self.ancestor = value for (family,m,f) in self.AltFamilyList: if family.Father: # Don't waste time if the ancestor is already flagged. # This will happen when cousins marry. if not family.Father.getAncestor(): family.Father.setAncestor(value) if family.getMother(): if not family.Mother.getAncestor(): family.Mother.setAncestor(value) def getAncestor(self): return self.ancestor def setLdsBaptism(self,ord): self.lds_bapt = ord def getLdsBaptism(self): return self.lds_bapt def setLdsEndowment(self,ord): self.lds_endow = ord def getLdsEndowment(self): return self.lds_endow def setLdsSeal(self,ord): self.lds_seal = ord def getLdsSeal(self): return self.lds_seal def probablyAlive(self): """Returns true if the person may be alive.""" if not self.death.is_empty (): return 0 if self.birth.getDate() != "": return not_too_old(self.birth.getDateObj().get_start_date()) # Neither birth nor death events are available. Try looking # for descendants that were born more than a lifespan ago. min_generation = 13 max_generation = 60 max_age_difference = 60 def descendants_too_old (person, years): for family in person.getFamilyList (): for child in family.getChildList (): if child.birth.getDate () != "": d = SingleDate (child.birth.getDateObj (). get_start_date ()) d.setYear (d.getYear () - years) if not not_too_old (d): return 1 if child.death.getDate () != "": d = SingleDate (child.death.getDateObj (). get_start_date ()) if not not_too_old (d): return 1 if descendants_too_old (child, years + min_generation): return 1 if descendants_too_old (self, min_generation): return 0 # What about their parents? def parents_too_old (person, age_difference): family = person.getMainParents () if family: for parent in [family.getFather (), family.getMother ()]: if not parent: continue if parent.birth.getDate () != "": d = SingleDate (parent.birth.getDateObj (). get_start_date ()) d.setYear (d.getYear () + max_generation + age_difference) if not not_too_old (d): return 1 if parent.death.getDate () != "": d = SingleDate (parent.death.getDateObj (). get_start_date ()) d.setYear (d.getYear () + age_difference) if not not_too_old (d): return 1 if parents_too_old (self, 0): return 0 # As a last resort, trying seeing if their spouse's age gives # any clue. for family in self.getFamilyList (): for spouse in [family.getFather (), family.getMother ()]: if not spouse: continue if spouse == self: continue if spouse.birth.getDate () != "": d = SingleDate (spouse.birth.getDateObj(). get_start_date ()) d.setYear (d.getYear () + max_age_difference) if not not_too_old (d): return 0 if spouse.death.getDate () != "": d = SingleDate (spouse.birth.getDateObj(). get_start_date ()) d.setYear (d.getYear () - min_generation) if not not_too_old (d): return 0 if parents_too_old (spouse, max_age_difference): return 0 return 1 class Event(DataObj): """Event record, recording the event type, description, place, and date of a particular event""" NAME = 0 ID = 1 def __init__(self,source=None): """creates a new Event instance, copying from the source if present""" DataObj.__init__(self,source) if source: self.place = source.place self.date = Date(source.date) self.description = source.description self.name = source.name self.cause = source.cause # old ZODB database may not have this element try: if source.witness: self.witness = source.witness[:] else: self.witness = None except: self.witness = None else: self.place = None self.date = None self.description = "" self.name = "" self.cause = "" self.witness = None def get_witness_list(self): return self.witness def set_witness_list(self,list): if list: self.witness = list[:] else: self.witness = None def add_witness(self,value): if self.witness: self.witness.append(value) else: self.witness = [value] def is_empty(self): date = self.getDateObj() place = self.getPlace() description = self.description cause = self.cause name = self.name if (not name or name == "Birth" or name == "Death") and \ date.isEmpty() and not place and not description and not cause: return 1 else: return 0 def set(self,name,date,place,description): """sets the name, date, place, and description of an Event instance""" self.name = name self.place = place self.description = description self.setDate(date) def are_equal(self,other): """returns 1 if the specified event is the same as the instance""" if other == None: return 0 if (self.name != other.name or self.place != other.place or self.description != other.description or self.cause != other.cause or self.private != other.private or compare_dates(self.getDateObj(),other.getDateObj()) or len(self.getSourceRefList()) != len(other.getSourceRefList())): return 0 index = 0 olist = other.getSourceRefList() for a in self.getSourceRefList(): if not a.are_equal(olist[index]): return 0 index = index + 1 return 1 def setName(self,name): """sets the name of the Event""" self.name = name def getName(self): """returns the name of the Event""" return self.name def setPlace(self,place): """sets the Place instance of the Event""" self.place = place def getPlace(self): """returns the Place instance of the Event""" return self.place def setCause(self,cause): """sets the cause of the Event""" self.cause = cause def getCause(self): """returns the cause of the Event""" return self.cause def getPlaceName(self): """returns the title of the Place associated with the Event""" if self.place: return self.place.get_title() else: return "" def setDescription(self,description): """sets the description of the Event instance""" self.description = description def getDescription(self) : """returns the description of the Event instance""" return self.description def setDate(self, date) : """attempts to sets the date of the Event instance""" if not self.date: self.date = Date() self.date.set(date) def getDate(self) : """returns a string representation of the date of the Event instance""" if self.date: return self.date.getDate() return "" def getPrefDate(self) : """returns a string representation of the date of the Event instance""" if self.date: return self.date.getDate() return "" def getQuoteDate(self) : """returns a string representation of the date of the Event instance, enclosing the results in quotes if it is not a valid date""" if self.date: return self.date.getQuoteDate() return "" def getDateObj(self): """returns the Date object associated with the Event""" if not self.date: self.date = Date() return self.date def setDateObj(self,date): """sets the Date object associated with the Event""" self.date = date class Witness(Persistent): def __init__(self,type=Event.NAME,val="",comment=""): self.set_type(type) self.set_value(val) self.set_comment(comment) def set_type(self,type): self.type = type def get_type(self): return self.type def set_value(self,val): self.val = val def get_value(self): return self.val def set_comment(self,comment): self.comment = comment def get_comment(self): return self.comment class Family(Persistent): """Represents a family unit in the gramps database""" def __init__(self): """creates a new Family instance""" self.Father = None self.Mother = None self.Children = [] self.Marriage = None self.Divorce = None self.type = "Married" self.EventList = [] self.id = "" self.photoList = [] self.note = Note() self.attributeList = [] self.position = None self.lds_seal = None def setLdsSeal(self,ord): self.lds_seal = ord def getLdsSeal(self): return self.lds_seal def setPosition(self,pos): """sets a graphical location pointer for graphic display (x,y)""" self.position = pos def getPosition(self): """returns a graphical location pointer for graphic display (x,y)""" return self.position def addAttribute(self,attribute) : """adds an Attribute instance to the attribute list""" self.attributeList.append(attribute) self._p_changed = 1 def removeAttribute(self,attribute): """removes the specified Attribute instance from the attribute list""" if attribute in self.attributeList: self.attributeList.remove(attribute) self._p_changed = 1 def getAttributeList(self) : """returns the attribute list""" return extlist(self.attributeList) def setAttributeList(self,list) : """sets the attribute list to the specified list""" self.attributeList = list def getNote(self): """returns the text of the note attached to the Family""" return self.note.get() def setNote(self,text): """sets the note attached to the Family to the passed text""" self.note.set(text) def getNoteObj(self): """returns the Note instance attached to the Family""" return self.note def unique_note(self): """Creates a unique instance of the current note""" self.note = Note(self.note.get()) def setNoteObj(self,obj): """sets the Note instance attached to the Family""" self.note = obj def setId(self,id) : """sets the gramps ID for the Family""" self.id = str(id) def getId(self) : """returns the gramps ID for the Family""" return self.id def setRelationship(self,type): """assigns a string indicating the relationship between the father and the mother""" self.type = type def getRelationship(self): """returns a string indicating the relationship between the father and the mother""" return self.type def setFather(self,person): """sets the father of the Family to the specfied Person""" update = self.someChildIsAncestor() if update and self.Father: self.Father.setAncestor(0) self.Father = person if update and self.Father: self.Father.setAncestor(1) def getFather(self): """returns the father of the Family""" return self.Father def setMother(self,person): """sets the mother of the Family to the specfied Person""" update = self.someChildIsAncestor() if self.Mother and update: self.Mother.setAncestor(0) self.Mother = person if update and self.Mother: self.Mother.setAncestor(1) def getMother(self): """returns the mother of the Family""" return self.Mother def addChild(self,person): """adds the specfied Person as a child of the Family, adding it to the child list""" if person not in self.Children: self.Children.append(person) self._p_changed = 1 if person.getAncestor(): if self.Father: self.Father.setAncestor(1) if self.Mother: self.Mother.setAncestor(1) def removeChild(self,person): """removes the specified Person from the child list""" if person in self.Children: self.Children.remove(person) self._p_changed = 1 if person.getAncestor(): if self.Father: self.Father.setAncestor(0) if self.Mother: self.Mother.setAncestor(0) def getChildList(self): """returns the list of children""" return extlist(self.Children) def setChildList(self, list): """sets the list of children""" self.Children = list[:] def getMarriage(self): """returns the marriage event of the Family. Obsolete""" for e in self.EventList: if e.getName() == "Marriage": return e return None def getDivorce(self): """returns the divorce event of the Family. Obsolete""" for e in self.EventList: if e.getName() == "Divorce": return e return None def addEvent(self,event): """adds an Event to the event list""" self.EventList.append(event) self._p_changed = 1 def getEventList(self) : """returns the list of Event instances""" return extlist(self.EventList) def setEventList(self,list) : """sets the event list to the passed list""" self.EventList = list def addPhoto(self,photo): """Adds a Photo object to the Family instance's image list""" self.photoList.append(photo) self._p_changed = 1 def getPhotoList(self): """Returns the list of Photo objects""" return extlist(self.photoList) def setPhotoList(self,list): """Sets the list of Photo objects""" self.photoList = list def someChildIsAncestor(self): for child in self.Children: if (child.getAncestor()): return 1 return None class Source(Persistent): """A record of a source of information""" def __init__(self): """creates a new Source instance""" self.title = "" self.author = "" self.pubinfo = "" self.callno = "" self.note = Note() self.photoList = [] self.id = "" def getDisplayInfo(self): return [self.title,self.id,self.author,upper(self.title), upper(self.author)] def setId(self,newId): """sets the gramps' ID for the Source instance""" self.id = str(newId) def getId(self): """returns the gramps' ID of the Source instance""" return self.id def addPhoto(self,photo): """Adds a Photo object to the Source instance's image list""" self.photoList.append(photo) self._p_changed = 1 def getPhotoList(self): """Returns the list of Photo objects""" return extlist(self.photoList) def setPhotoList(self,list): """Sets the list of Photo objects""" self.photoList = list def setTitle(self,title): """sets the title of the Source""" self.title = title def getTitle(self): """returns the title of the Source""" return self.title def setNote(self,text): """sets the text of the note attached to the Source""" self.note.set(text) def getNote(self): """returns the text of the note attached to the Source""" return self.note.get() def setNoteObj(self,obj): """sets the Note instance attached to the Source""" self.note = obj def getNoteObj(self): """returns the Note instance attached to the Source""" return self.note def unique_note(self): """Creates a unique instance of the current note""" self.note = Note(self.note.get()) def setAuthor(self,author): """sets the author of the Source""" self.author = author def getAuthor(self): """returns the author of the Source""" return self.author def setPubInfo(self,text): """sets the publication information of the Source""" self.pubinfo = text def getPubInfo(self): """returns the publication information of the Source""" return self.pubinfo def setCallNumber(self,val): """sets the call number (or some identification indicator) of the Source""" self.callno = val def getCallNumber(self): """returns the call number (or some identification indicator) of the Source""" return self.callno class SourceRef(Persistent): """Source reference, containing detailed information about how a referenced source relates to it""" def __init__(self,source=None): """creates a new SourceRef, copying from the source if present""" if source: self.confidence = source.confidence self.ref = source.ref self.page = source.page self.date = Date(source.date) self.comments = Note(source.comments.get()) self.text = source.text else: self.confidence = CONF_NORMAL self.ref = None self.page = "" self.date = Date() self.comments = Note() self.text = "" def setConfidence(self,val): """Sets the confidence level""" self.confidence = val def getConfidence(self): """Returns the confidence level""" return self.confidence def setBase(self,ref): """sets the Source instance to which the SourceRef refers""" self.ref = ref def getBase(self): """returns the Source instance to which the SourceRef refers""" return self.ref def setDate(self,date): """sets the Date instance of the SourceRef""" self.date = date def getDate(self): """returns the Date instance of the SourceRef""" return self.date def setPage(self,page): """sets the page indicator of the SourceRef""" self.page = page def getPage(self): """gets the page indicator of the SourceRef""" return self.page def setText(self,text): """sets the text related to the SourceRef""" self.text = text def getText(self): """returns the text related to the SourceRef""" return self.text def setNoteObj(self,note): """Change the Note instance to obj""" self.comments = note def setComments(self,comments): """sets the comments about the SourceRef""" self.comments.set(comments) def getComments(self): """returns the comments about the SourceRef""" return self.comments.get() def are_equal(self,other): """returns 1 if the passed SourceRef is equal to the current""" if self.ref and other.ref: if self.page != other.page: return 0 if compare_dates(self.date,other.date) != 0: return 0 if self.getText() != other.getText(): return 0 if self.getComments() != other.getComments(): return 0 if self.confidence != other.confidence: return 0 return 1 elif not self.ref and not other.ref: return 1 else: return 0 def unique_note(self): """Creates a unique instance of the current note""" self.comments = Note(self.comments.get()) class GenderStats: def __init__ (self): self.stats = {} def _get_key (self, person): name = person.getPrimaryName ().getFirstName () return self._get_key_from_name (name) def _get_key_from_name (self, name): return name.split (' ')[0].replace ('?', '') def name_stats (self, name): if self.stats.has_key (name): return self.stats[name] return (0, 0, 0) def count_person (self, person, db, undo = 0): # Let the Person do their own counting later person.db = db name = self._get_key (person) if not name: return gender = person.getGender () (male, female, unknown) = self.name_stats (name) if not undo: increment = 1 else: increment = -1 if gender == Person.male: male += increment elif gender == Person.female: female += increment elif gender == Person.unknown: unknown += increment self.stats[name] = (male, female, unknown) return def uncount_person (self, person): return self.count_person (person, None, undo = 1) def guess_gender (self, name): name = self._get_key_from_name (name) if not name or not self.stats.has_key (name): return Person.unknown (male, female, unknown) = self.stats[name] if unknown == 0: if male and not female: return Person.male if female and not male: return Person.female if male > (2 * female): return Person.male if female > (2 * male): return Person.female return Person.unknown class GrampsDB(Persistent): """GRAMPS database object. This object is a base class for other objects.""" def __init__(self): """creates a new GrampsDB""" self.surnames = [] self.personTable = {} self.placeTable = {} self.sourceTable = {} self.iprefix = "I%d" self.sprefix = "S%d" self.oprefix = "O%d" self.pprefix = "P%d" self.fprefix = "F%d" self.familyMap = {} self.personMap = {} self.sourceMap = {} self.placeMap = {} self.new() self.added_files = [] self.genderStats = GenderStats () def get_added_media_objects(self): return self.added_files def clear_added_media_objects(self): self.added_files = [] def get_type(self): return 'GrampsDB' def close(self): pass def get_base(self): return "" def need_autosave(self): return 1 def getPersonLength(self): return len(self.personTable) def getPersonKeys(self): return self.personTable.keys() def getPersonDisplay(self,key): return self.personTable[key] def buildPersonDisplay(self,nkey,okey=None): if nkey != okey and okey != None: del self.personTable[okey] person = self.personMap[nkey] self.personTable[nkey] = person.getDisplayInfo() self.addSurname(person.getPrimaryName().getSurname()) def buildPlaceDisplay(self,nkey,okey=None): if nkey != okey and okey != None: del self.placeTable[okey] self.placeTable[nkey] = self.placeMap[nkey].getDisplayInfo() def set_iprefix(self,val): if val: if _id_reg.search(val): self.iprefix = val else: self.iprefix = val + "%d" else: self.iprefix = "I%d" def set_sprefix(self,val): if val: if _id_reg.search(val): self.sprefix = val else: self.sprefix = val + "%d" else: self.sprefix = "S%d" def set_oprefix(self,val): if val: if _id_reg.search(val): self.oprefix = val else: self.oprefix = val + "%d" else: self.oprefix = "O%d" def set_pprefix(self,val): if val: if _id_reg.search(val): self.pprefix = val else: self.pprefix = val + "%d" else: self.pprefix = "P%d" def set_fprefix(self,val): if val: if _id_reg.search(val): self.fprefix = val else: self.fprefix = val + "%d" else: self.fprefix = "F%d" def new(self): """initializes the GrampsDB to empty values""" # eliminate memory reference cycles for 1.5.2 garbage collection for f in self.familyMap.values(): f.Father = None f.Mother = None f.Children = [] self.familyMap = {} for p in self.personMap.values(): p.clearAltFamilyList() p.clearFamilyList() self.surnames = [] self.personMap = {} self.sourceMap = {} self.placeMap = {} self.objectMap = {} self.personTable = {} self.placeTable = {} self.sourceTable = {} self.smapIndex = 0 self.pmapIndex = 0 self.fmapIndex = 0 self.lmapIndex = 0 self.omapIndex = 0 self.default = None self.owner = Researcher() self.bookmarks = [] self.path = "" self.place2title = {} self.genderStats = GenderStats () def getSurnames(self): return self.surnames def addSurname(self,name): try: if name and name not in self.surnames: self.surnames.append(name) self.surnames.sort() except: print name def getBookmarks(self): """returns the list of Person instances in the bookmarks""" return self.bookmarks def clean_bookmarks(self): """cleans up the bookmark list, removing empty slots""" new_bookmarks = [] for person in self.bookmarks: new_bookmarks.append(person) self.bookmarks = new_bookmarks def setResearcher(self,owner): """sets the information about the owner of the database""" self.owner.set(owner.getName(),owner.getAddress(),owner.getCity(),\ owner.getState(),owner.getCountry(),\ owner.getPostalCode(),owner.getPhone(),owner.getEmail()) def getResearcher(self): """returns the Researcher instance, providing information about the owner of the database""" return self.owner def setDefaultPerson(self,person): """sets the default Person to the passed instance""" if (self.default): self.default.setAncestor(0) self.default = person self.default.setAncestor(1) def getDefaultPerson(self): """returns the default Person of the database""" return self.default def getPerson(self,id): """returns a map of gramps's IDs to Person instances""" return self.personMap[id] def getPersonMap(self): """returns a map of gramps's IDs to Person instances""" return extmap(self.personMap) def setPersonMap(self,map): """sets the map of gramps's IDs to Person instances""" # Should recalculate self.genderStats here. self.personMap = map def getPlaceMap(self): """returns a map of gramps's IDs to Place instances""" return extmap(self.placeMap) def setPlaceMap(self,map): """sets the map of gramps's IDs to Place instances""" self.placeMap = map def getFamilyMap(self): """returns a map of gramps's IDs to Family instances""" return extmap(self.familyMap) def getFamily(self,id): """returns a map of gramps's IDs to Family instances""" return self.familyMap[id] def setFamilyMap(self,map): """sets the map of gramps's IDs to Family instances""" self.familyMap = map def getSourceMap(self): """returns a map of gramps's IDs to Source instances""" return extmap(self.sourceMap) def getObjectMap(self): """returns a map of gramps's IDs to Object instances""" return self.objectMap def getSavePath(self): """returns the save path of the file, or "" if one does not exist""" return self.path def setSavePath(self,path): """sets the save path for the database""" self.path = path def getPersonEventTypes(self): """returns a list of all Event types assocated with Person instances in the database""" map = {} for person in self.personMap.values(): for event in person.getEventList(): map[event.getName()] = 1 return map.keys() def getPersonAttributeTypes(self): """returns a list of all Attribute types assocated with Person instances in the database""" map = {} for key in self.personTable.keys(): person = self.personMap[key] for attr in person.getAttributeList(): map[attr.getType()] = 1 return map.keys() def getFamilyAttributeTypes(self): """returns a list of all Attribute types assocated with Family instances in the database""" map = {} for family in self.familyMap.values(): for attr in family.getAttributeList(): map[attr.getType()] = 1 return map.keys() def getFamilyEventTypes(self): """returns a list of all Event types assocated with Family instances in the database""" map = {} for family in self.familyMap.values(): for attr in family.getEventList(): map[attr.getName()] = 1 return map.keys() def getPlaces(self): """returns a list of Place instances""" return self.placeMap.values() def getFamilyRelationTypes(self): """returns a list of all relationship types assocated with Family instances in the database""" map = {} for family in self.familyMap.values(): map[family.getRelationship()] = 1 return map.keys() def removePerson(self,id): self.genderStats.uncount_person (self.personMap[id]) del self.personMap[id] del self.personTable[id] def removeSource(self,id): del self.sourceMap[id] del self.sourceTable[id] def addPersonAs(self,person): self.personMap[person.getId()] = person self.personTable[person.getId()] = person.getDisplayInfo() self.genderStats.count_person (person, self) return person.getId() def addPerson(self,person): """adds a Person to the database, assigning a gramps' ID""" index = self.iprefix % self.pmapIndex while self.personMap.has_key(index): self.pmapIndex = self.pmapIndex + 1 index = self.iprefix % self.pmapIndex person.setId(index) self.personMap[index] = person self.personTable[index] = person.getDisplayInfo() self.pmapIndex = self.pmapIndex + 1 self.genderStats.count_person (person, self) return index def findPerson(self,idVal,map): """finds a Person in the database using the idVal and map variables to translate between the external ID and gramps' internal ID. If no such Person exists, a new Person instance is created. idVal - external ID number map - map build by findPerson of external to gramp's IDs""" idVal = str(idVal) if map.has_key(idVal): person = self.personMap[map[idVal]] else: person = Person() map[idVal] = self.addPerson(person) self.personTable[map[idVal]] = person.getDisplayInfo() self.genderStats.count_person (person, self) return person def findPersonNoMap(self,val): """finds a Person in the database from the passed gramps' ID. If no such Person exists, a new Person is added to the database.""" person = self.personMap.get(val) if not person: person = Person() person.id = val self.personMap[val] = person self.pmapIndex = self.pmapIndex+1 self.personTable[val] = person.getDisplayInfo() self.genderStats.count_person (person, self) return person def addPersonNoMap(self,person,id): """adds a Person to the database if the gramps' ID is known""" id = str(id) person.setId(id) self.personMap[id] = person self.pmapIndex = self.pmapIndex+1 self.personTable[id] = person.getDisplayInfo() self.genderStats.count_person (person, self) return id def addSource(self,source): """adds a Source instance to the database, assigning it a gramps' ID number""" index = self.sprefix % self.smapIndex while self.sourceMap.has_key(index): self.smapIndex = self.smapIndex + 1 index = self.sprefix % self.smapIndex source.setId(index) self.sourceMap[index] = source self.sourceTable[index] = source.getDisplayInfo() self.smapIndex = self.smapIndex + 1 return index def addSourceNoMap(self,source,index): """adds a Source to the database if the gramps' ID is known""" source.setId(index) self.sourceMap[index] = source self.smapIndex = self.smapIndex + 1 self.sourceTable[index] = source.getDisplayInfo() return index def findSource(self,idVal,map): """finds a Source in the database using the idVal and map variables to translate between the external ID and gramps' internal ID. If no such Source exists, a new Source instance is created. idVal - external ID number map - map build by findSource of external to gramp's IDs""" if map.has_key(idVal): source = self.sourceMap[map[idVal]] else: source = Source() map[idVal] = self.addSource(source) self.sourceTable[map[idVal]] = source.getDisplayInfo() return source def findSourceNoMap(self,val): """finds a Source in the database from the passed gramps' ID. If no such Source exists, a new Source is added to the database.""" if self.sourceMap.has_key(val): source = self.sourceMap[val] else: source = Source() self.addSourceNoMap(source,val) self.sourceTable[val] = source.getDisplayInfo() return source def addObject(self,object): """adds an Object instance to the database, assigning it a gramps' ID number""" index = self.oprefix % self.omapIndex while self.objectMap.has_key(index): self.omapIndex = self.omapIndex + 1 index = self.oprefix % self.omapIndex object.setId(index) self.objectMap[index] = object self.omapIndex = self.omapIndex + 1 self.added_files.append(object) return index def getObject(self,id): return self.objectMap[id] def findObject(self,idVal,map): """finds an Object in the database using the idVal and map variables to translate between the external ID and gramps' internal ID. If no such Object exists, a new Object instance is created. idVal - external ID number map - map build by findObject of external to gramp's IDs""" idVal = str(idVal) if map.has_key(idVal): object = self.objectMap[map[idVal]] else: object = Photo() map[idVal] = self.addObject(object) return object def findObjectNoConflicts(self,idVal,map): """finds an Object in the database using the idVal and map variables to translate between the external ID and gramps' internal ID. If no such Object exists, a new Object instance is created. idVal - external ID number map - map build by findObject of external to gramp's IDs""" idVal = str(idVal) if map.has_key(idVal): object = self.objectMap[map[idVal]] else: object = Photo() if self.objectMap.has_key(idVal): map[idVal] = self.addObject(object) else: map[idVal] = self.addObjectNoMap(object,idVal) return object def addObjectNoMap(self,object,index): """adds an Object to the database if the gramps' ID is known""" index = str(index) object.setId(index) self.objectMap[index] = object self.omapIndex = self.omapIndex + 1 self.added_files.append(object) return index def findObjectNoMap(self,idVal): """finds an Object in the database from the passed gramps' ID. If no such Source exists, a new Source is added to the database.""" val = str(idVal) if self.objectMap.has_key(val): object = self.objectMap[val] else: object = Photo() self.addObjectNoMap(object,val) return object def addPlace(self,place): """adds a Place instance to the database, assigning it a gramps' ID number""" index = self.pprefix % self.lmapIndex while self.placeMap.has_key(index): self.lmapIndex = self.lmapIndex + 1 index = self.pprefix % self.lmapIndex place.setId(index) self.placeMap[index] = place self.lmapIndex = self.lmapIndex + 1 self.placeTable[index] = place.getDisplayInfo() return index def removeObject(self,id): del self.objectMap[id] def removePlace(self,id): del self.placeMap[id] del self.placeTable[id] def addPlaceAs(self,place): self.placeMap[place.getId()] = place self.placeTable[place.getId()] = place.getDisplayInfo() return place.getId() def findPlace(self,idVal,map): """finds a Place in the database using the idVal and map variables to translate between the external ID and gramps' internal ID. If no such Place exists, a new Place instance is created. idVal - external ID number map - map build by findPlace of external to gramp's IDs""" idVal = str(idVal) if map.has_key(idVal): place = self.placeMap[map[idVal]] else: place = Place() map[idVal] = self.addPlace(place) return place def findPlaceNoConflicts(self,idVal,map): """finds a Place in the database using the idVal and map variables to translate between the external ID and gramps' internal ID. If no such Place exists, a new Place instance is created. idVal - external ID number map - map build by findPlace of external to gramp's IDs""" if map.has_key(idVal): place = self.placeMap[map[idVal]] else: place = Place() if self.placeMap.has_key(idVal): map[idVal] = self.addPlace(place) else: place.setId(idVal) map[idVal] = self.addPlaceAs(place) return place def addPlaceNoMap(self,place,index): """adds a Place to the database if the gramps' ID is known""" index = str(index) place.setId(index) self.placeMap[index] = place self.lmapIndex = self.lmapIndex + 1 self.placeTable[index] = place.getDisplayInfo() return index def findPlaceNoMap(self,val): """finds a Place in the database from the passed gramps' ID. If no such Place exists, a new Place is added to the database.""" place = self.placeMap.get(val) if not place: place = Place() place.id = val self.placeMap[val] = place self.lmapIndex = self.lmapIndex + 1 self.placeTable[val] = place.getDisplayInfo() return place def getPlaceKeys(self): return self.placeTable.keys() def getPlace(self,key): return self.placeMap[key] def getPlaceDisplay(self,key): return self.placeTable[key] def getSourceKeys(self): return self.sourceTable.keys() def getSourceDisplay(self,key): return self.sourceTable[key] def getSource(self,key): return self.sourceMap[key] def buildSourceDisplay(self,nkey,okey=None): if nkey != okey and okey != None: del self.sourceTable[okey] if self.sourceTable.has_key(nkey): del self.sourceTable[nkey] self.sourceTable[nkey] = self.sourceMap[nkey].getDisplayInfo() def newFamily(self): """adds a Family to the database, assigning a gramps' ID""" index = self.fprefix % self.fmapIndex while self.familyMap.has_key(index): self.fmapIndex = self.fmapIndex + 1 index = self.fprefix % self.fmapIndex self.fmapIndex = self.fmapIndex + 1 family = Family() family.setId(index) self.familyMap[index] = family return family def newFamilyNoMap(self,id): """finds a Family in the database from the passed gramps' ID. If no such Family exists, a new Family is added to the database.""" family = Family() id = str(id) family.setId(id) self.familyMap[id] = family self.fmapIndex = self.fmapIndex + 1 return family def findFamily(self,idVal,map): """finds a Family in the database using the idVal and map variables to translate between the external ID and gramps' internal ID. If no such Family exists, a new Family instance is created. idVal - external ID number map - map build by findFamily of external to gramp's IDs""" if map.has_key(idVal): family = self.familyMap[map[idVal]] else: family = self.newFamily() map[idVal] = family.getId() return family def findFamilyNoMap(self,val): """finds a Family in the database from the passed gramps' ID. If no such Family exists, a new Family is added to the database.""" family = self.familyMap.get(val) if not family: family = Family() family.id = val self.familyMap[val] = family self.fmapIndex = self.fmapIndex + 1 return family def deleteFamily(self,family): """deletes the Family instance from the database""" if self.familyMap.has_key(family.getId()): del self.familyMap[family.getId()] def findPersonNoConflicts(self,idVal,map): """finds a Person in the database using the idVal and map variables to translate between the external ID and gramps' internal ID. If no such Person exists, a new Person instance is created. idVal - external ID number map - map build by findPerson of external to gramp's IDs""" if map.has_key(idVal): person = self.personMap[map[idVal]] else: person = Person() if self.personMap.has_key(idVal): map[idVal] = self.addPerson(person) else: person.setId(idVal) map[idVal] = self.addPersonAs(person) return person def findFamilyNoConflicts(self,idVal,map): """finds a Family in the database using the idVal and map variables to translate between the external ID and gramps' internal ID. If no such Family exists, a new Family instance is created. idVal - external ID number map - map build by findFamily of external to gramp's IDs""" if map.has_key(idVal): family = self.familyMap[map[idVal]] else: if self.familyMap.has_key(idVal): family = self.newFamily() else: family = self.newFamilyNoMap(idVal) map[idVal] = family.getId() return family def findSourceNoConflicts(self,idVal,map): """finds a Source in the database using the idVal and map variables to translate between the external ID and gramps' internal ID. If no such Source exists, a new Source instance is created. idVal - external ID number map - map build by findSource of external to gramp's IDs""" if map.has_key(idVal): source = self.sourceMap[map[idVal]] else: source = Source() if self.sourceMap.has_key(idVal): map[idVal] = self.addSource(source) else: map[idVal] = self.addSource(source) return source