# # Gramps - a GTK+/GNOME based genealogy program # # Copyright (C) 2007 B. Malengier # # 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 # """ Display a person's relations to the home person """ #------------------------------------------------------------------------- # # GRAMPS modules # #------------------------------------------------------------------------- from Simple import SimpleAccess, SimpleDoc from gettext import gettext as _ from PluginUtils import register_quick_report, relationship_class from ReportBase import CATEGORY_QR_PERSON # define the formatting string once as a constant. Since this is reused _FMT = "%-3d %s" _FMT_VOID = " %s" _FMT_DET1 = "%-3s %-15s" _FMT_DET2 = "%-30s %-15s\t%-10s %-2s" def run(database, document, person): """ Create the report class, and produce the quick report """ report = AllRelReport(database, document, person) report.run() class AllRelReport(): """ Obtains all relationships, displays the relations, and in details, the relation path """ def __init__(self, database, document, person): self.database = database self.person = person self.sdb = SimpleAccess(database) self.sdoc = SimpleDoc(document) self.rel_class = relationship_class() self.msg_list = [] def run(self): #get home_person self.home_person = self.database.get_default_person() if not self.home_person : self.sdoc.paragraph(_("Home person not set.")) return self.print_title() p2 = self.sdb.name(self.home_person) p1 = self.sdb.name(self.person) if self.person.handle == self.home_person.handle : self.sdoc.paragraph(_FMT_VOID % ( _("%s and %s are the same person.") % ( p1, p2)) ) return #check if not a family too: is_spouse = self.rel_class.is_spouse(self.database, self.home_person, self.person) if is_spouse: rel_string = is_spouse rstr = _("%(person)s is the %(relationship)s of %(active_person)s." ) % {'person' : p1, 'relationship' : rel_string, 'active_person' : p2 } self.sdoc.paragraph(_FMT_VOID % (rstr)) self.sdoc.paragraph("") #obtain all relationships, assume home person has largest tree common, self.msg_list = self.rel_class.get_relationship_distance_new( self.database, self.person, self.home_person, all_families=True, all_dist=True, only_birth=False) #all relations if (not common or common[0][0]== -1 ) and not is_spouse: rstr = _("%(person)s and %(active_person)s are not " "directly related.") % {'person' : p2, 'active_person' : p1 } self.sdoc.paragraph(_FMT_VOID % (rstr)) self.sdoc.paragraph("") #collapse common so parents of same fam in common are one line commonnew = self.rel_class.collapse_relations(common) self.print_details_header(commonnew, self.home_person, self.person, skip_list_text=None) self.print_details_path(commonnew, self.home_person, self.person) self.print_details_path(commonnew, self.home_person, self.person, first=False) if not common or common[0][0]== -1 : self.remarks(self.msg_list) self.msg_list = [] #check inlaw relation next else: #stop return #we check the inlaw relationships if not partners. if is_spouse: return handles_done = [(self.person.handle, self.home_person.handle)] inlaws_pers = [self.person] + self.get_inlaws(self.person) inlaws_home = [self.home_person] + self.get_inlaws(self.home_person) #remove overlap: inlaws_home = [x for x in inlaws_home if x not in inlaws_pers] inlawwritten = False skiplist = [] commonnew = [] for inlawpers in inlaws_pers: for inlawhome in inlaws_home: if (inlawpers, inlawhome) in handles_done : continue else: handles_done.append((inlawpers, inlawhome)) common, msg = \ self.rel_class.get_relationship_distance_new( self.database, inlawpers, inlawhome, all_families=True, all_dist=True, only_birth=False) if msg: self.msg_list += msg if common and not common[0][0] == -1: if not inlawwritten: rstr = _("%(person)s and %(active_person)s have " "following in-law relations:" ) % {'person' : p2, 'active_person' : p1 } self.sdoc.paragraph(_FMT_VOID % (rstr)) self.sdoc.paragraph("") inlawwritten = True else: continue inlawb = not inlawpers.handle == self.person.handle inlawa = not inlawhome.handle == self.home_person.handle commonnew.append((inlawa, inlawb, inlawhome, inlawpers, self.rel_class.collapse_relations(common))) skip=[] skip_text = [] count = 1 for inlawa, inlawb, inlawhome, inlawpers, commonrel in commonnew: count = self.print_details_header(commonrel, inlawhome, inlawpers, inlawa = inlawa, inlawb = inlawb, count=count, skip_list=skip, skip_list_text = skip_text) count = 1 for inlawa, inlawb, inlawhome, inlawpers, commonrel in commonnew: self.print_details_path(commonrel, inlawhome, inlawpers, inlawa = inlawa, inlawb = inlawb, count = count, skip_list = skip) count = self.print_details_path(commonrel, inlawhome, inlawpers, inlawa = inlawa, inlawb = inlawb, count = count, skip_list = skip, first = False) self.remarks(self.msg_list, True) def get_inlaws(self, person): inlaws = [] family_handles = person.get_family_handle_list() for handle in family_handles: fam = self.database.get_family_from_handle(handle) if fam.father_handle and \ not fam.father_handle == person.handle: inlaws.append(self.database.get_person_from_handle( fam.father_handle)) elif fam.mother_handle and \ not fam.mother_handle == person.handle: inlaws.append(self.database.get_person_from_handle( fam.mother_handle)) return inlaws def print_title(self): """ print the title """ p2 = self.sdb.name(self.home_person) p1 = self.sdb.name(self.person) self.sdoc.title(_("Relationships of %s to %s") % (p1 ,p2)) self.sdoc.paragraph("") def print_details_header(self, relations, pers1, pers2, inlawa=False, inlawb=False, count=1, skip_list=[], skip_list_text = []): if not relations or relations[0][0] == -1: return count sdoc = self.sdoc rel_class = self.rel_class for relation in relations: birth = self.rel_class.only_birth(relation[2])\ and self.rel_class.only_birth(relation[4]) distorig = len(relation[4]) distother = len(relation[2]) if distorig == 1 and distother == 1 and not inlawa \ and not inlawb: rel_str = self.rel_class.get_sibling_relationship_string( self.rel_class.get_sibling_type( self.database, pers1, pers2), self.home_person.get_gender(), self.person.get_gender()) else: rel_str = self.rel_class.get_single_relationship_string( distorig, distother, self.home_person.get_gender(), self.person.get_gender(), relation[4], relation[2], only_birth = birth, in_law_a = inlawa, in_law_b = inlawb) if not skip_list_text is None: if rel_str in skip_list_text: skip_list.append(count) else: skip_list_text.append(rel_str) sdoc.paragraph(_FMT % (count-len(skip_list), rel_str)) else: sdoc.paragraph(_FMT % (count, rel_str)) count += 1 return count def print_details_path(self, relations, pers1, pers2, inlawa=False, inlawb=False, count = 1, skip_list = [], first=True): if not relations or relations[0][0] == -1: return count sdoc = self.sdoc rel_class = self.rel_class p2 = self.sdb.name(self.home_person) p1 = self.sdb.name(self.person) pers = p2 inlaw = inlawa if first: pers = p1 inlaw = inlawb if count == 1: sdoc.paragraph("") sdoc.header1(_("Detailed path from %(person)s to common ancestor" ) % {'person':pers}) sdoc.paragraph("") sdoc.header2(_FMT_DET1 % (_(' '), _('Name Common ancestor'))) sdoc.header2(_FMT_DET2 % (' ', _('Parent'), _('Birth'), _('Family'))) sdoc.paragraph("") for relation in relations: if count in skip_list: count += 1 continue counter = str(count - len([x for x in range(count) if x+1 in skip_list])) name = _('Unknown') if relation[1]: name = self.sdb.name(self.database.get_person_from_handle( relation[1][0])) for handle in relation[1][1:]: name += ' ' + _('and') + ' ' + self.sdb.name( self.database.get_person_from_handle(handle)) sdoc.paragraph(_FMT_DET1 % (counter, name)) if inlaw: sdoc.paragraph(_FMT_DET2 % (' ', _('Partner'), ' ', ' ')) if first: ind1 = 2 ind2 = 3 else: ind1 = 4 ind2 = 5 for rel,fam in zip(relation[ind1],relation[ind2]) : par_str = _('Unknown') #when sibling, parent is unknown if rel == rel_class.REL_MOTHER \ or rel == rel_class.REL_MOTHER_NOTBIRTH: par_str = _('Mother') if rel == rel_class.REL_FATHER \ or rel == rel_class.REL_FATHER_NOTBIRTH: par_str = _('Father') if (rel == rel_class.REL_FAM_BIRTH or rel == rel_class.REL_FAM_NONBIRTH or rel == rel_class.REL_FAM_BIRTH_MOTH_ONLY or rel == rel_class.REL_FAM_BIRTH_FATH_ONLY): par_str = _('Parents') birth_str = _('Yes') if (rel == rel_class.REL_MOTHER_NOTBIRTH or rel == rel_class.REL_FATHER_NOTBIRTH or rel == rel_class.REL_FAM_NONBIRTH): birth_str = _('No') elif (rel == rel_class.REL_FAM_BIRTH_FATH_ONLY or rel == rel_class.REL_FAM_BIRTH_MOTH_ONLY): birth_str = _('Partial') famstr = '' if isinstance(fam, list): famstr = str(fam[0]+1) for val in fam[1:] : famstr = famstr + ', ' + str(val+1) else: famstr = str(fam+1) sdoc.paragraph(_FMT_DET2 % (' ', par_str, birth_str, famstr)) counter='' name = '' count += 1 return count def remarks(self, msg_list, inlaw=False): if msg_list : sdoc = self.sdoc sdoc.paragraph("") if inlaw: sdoc.header1(_("Remarks with inlaw family")) else: sdoc.header1(_("Remarks")) sdoc.paragraph("") sdoc.paragraph(_("The following problems where encountered:")) for msg in msg_list : sdoc.paragraph(msg) sdoc.paragraph("") sdoc.paragraph("") #------------------------------------------------------------------------ # # # #------------------------------------------------------------------------ register_quick_report( name = 'all_relations', category = CATEGORY_QR_PERSON, run_func = run, translated_name = _("Relation to Home Person"), status = _("Stable"), description= _("Display all relationships between person and home person."), author_name="B. Malengier", author_email="benny.malengier@gramps-project.org" )