# # 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 # # $Id$ #------------------------------------------------------------------------- # # Standard python modules # #------------------------------------------------------------------------- import os import sys import locale import random import time from gettext import gettext as _ try: set() except: from sets import Set as set #------------------------------------------------------------------------- # # GNOME/GTK # #------------------------------------------------------------------------- import gtk import gtk.gdk #------------------------------------------------------------------------- # # Gramps modules # #------------------------------------------------------------------------- import const import Mime import NameDisplay import RelLib import Errors from QuestionDialog import WarningDialog #------------------------------------------------------------------------- # # Integer to String mappings for constants # #------------------------------------------------------------------------- gender = { RelLib.Person.MALE : _("male"), RelLib.Person.FEMALE : _("female"), RelLib.Person.UNKNOWN : _("unknown"), } def format_gender( type): return gender.get(type[0],_("Invalid")) confidence = { RelLib.SourceRef.CONF_VERY_HIGH : _("Very High"), RelLib.SourceRef.CONF_HIGH : _("High"), RelLib.SourceRef.CONF_NORMAL : _("Normal"), RelLib.SourceRef.CONF_LOW : _("Low"), RelLib.SourceRef.CONF_VERY_LOW : _("Very Low"), } def format_confidence( type): return confidence.get(type[0],_("Invalid id %d ('%s')")%type) personal_attributes = { RelLib.Attribute.UNKNOWN : _("Unknown"), RelLib.Attribute.CUSTOM : _("Custom"), RelLib.Attribute.CASTE : _("Caste"), RelLib.Attribute.DESCRIPTION : _("Description"), RelLib.Attribute.ID : _("Identification Number"), RelLib.Attribute.NATIONAL : _("National Origin"), RelLib.Attribute.NUM_CHILD : _("Number of Children"), RelLib.Attribute.SSN : _("Social Security Number"), } def format_personal_attribute( type): if type[0] == RelLib.Attribute.CUSTOM: return type[1] return personal_attributes.get(type[0],_("Invalid id %d ('%s')")%type) family_attributes = { RelLib.Attribute.UNKNOWN : _("Unknown"), RelLib.Attribute.CUSTOM : _("Custom"), RelLib.Attribute.NUM_CHILD : _("Number of Children"), } def format_family_attribute( type): if type[0] == RelLib.Attribute.CUSTOM: return type[1] return family_attributes.get(type[0],_("Invalid id %d ('%s')")%type) def format_attribute( type): if type[0] == RelLib.Attribute.CUSTOM: return type[1] val = personal_attributes.get(type[0]) if not val: val = family_attributes.get(type[0],_("Invalid id %d ('%s')")%type) return val family_rel_descriptions = { RelLib.FamilyRelType.MARRIED : _("A legal or common-law relationship " "between a husband and wife"), RelLib.FamilyRelType.UNMARRIED : _("No legal or common-law relationship " "between man and woman"), RelLib.FamilyRelType.CIVIL_UNION : _("An established relationship between " "members of the same sex"), RelLib.FamilyRelType.UNKNOWN : _("Unknown relationship between a man " "and woman"), RelLib.FamilyRelType.CUSTOM : _("An unspecified relationship " "a man and woman"), } #------------------------------------------------------------------------- # # Integer to GEDCOM tag mappings for constants # #------------------------------------------------------------------------- familyConstantEvents = { RelLib.EventType.ANNULMENT : "ANUL", RelLib.EventType.DIV_FILING : "DIVF", RelLib.EventType.DIVORCE : "DIV", RelLib.EventType.ENGAGEMENT : "ENGA", RelLib.EventType.MARR_BANNS : "MARB", RelLib.EventType.MARR_CONTR : "MARC", RelLib.EventType.MARR_LIC : "MARL", RelLib.EventType.MARR_SETTL : "MARS", RelLib.EventType.MARRIAGE : "MARR" } personalConstantEvents = { RelLib.EventType.ADOPT : "ADOP", RelLib.EventType.ADULT_CHRISTEN : "CHRA", RelLib.EventType.BIRTH : "BIRT", RelLib.EventType.DEATH : "DEAT", RelLib.EventType.BAPTISM : "BAPM", RelLib.EventType.BAR_MITZVAH : "BARM", RelLib.EventType.BAS_MITZVAH : "BASM", RelLib.EventType.BLESS : "BLES", RelLib.EventType.BURIAL : "BURI", RelLib.EventType.CAUSE_DEATH : "CAUS", RelLib.EventType.ORDINATION : "ORDI", RelLib.EventType.CENSUS : "CENS", RelLib.EventType.CHRISTEN : "CHR" , RelLib.EventType.CONFIRMATION : "CONF", RelLib.EventType.CREMATION : "CREM", RelLib.EventType.DEGREE : "_DEG", RelLib.EventType.DIV_FILING : "DIVF", RelLib.EventType.EDUCATION : "EDUC", RelLib.EventType.ELECTED : "", RelLib.EventType.EMIGRATION : "EMIG", RelLib.EventType.FIRST_COMMUN : "FCOM", RelLib.EventType.GRADUATION : "GRAD", RelLib.EventType.MED_INFO : "_MDCL", RelLib.EventType.MILITARY_SERV : "_MILT", RelLib.EventType.NATURALIZATION : "NATU", RelLib.EventType.NOB_TITLE : "TITL", RelLib.EventType.NUM_MARRIAGES : "NMR", RelLib.EventType.IMMIGRATION : "IMMI", RelLib.EventType.OCCUPATION : "OCCU", RelLib.EventType.PROBATE : "PROB", RelLib.EventType.PROPERTY : "PROP", RelLib.EventType.RELIGION : "RELI", RelLib.EventType.RESIDENCE : "RESI", RelLib.EventType.RETIREMENT : "RETI", RelLib.EventType.WILL : "WILL", } familyConstantAttributes = { RelLib.Attribute.NUM_CHILD : "NCHI", } personalConstantAttributes = { RelLib.Attribute.CASTE : "CAST", RelLib.Attribute.DESCRIPTION : "DSCR", RelLib.Attribute.ID : "IDNO", RelLib.Attribute.NATIONAL : "NATI", RelLib.Attribute.NUM_CHILD : "NCHI", RelLib.Attribute.SSN : "SSN", } #------------------------------------------------------------------------- # # modified flag # #------------------------------------------------------------------------- _history_brokenFlag = 0 def history_broken(): global _history_brokenFlag _history_brokenFlag = 1 data_recover_msg = _('The data can only be recovered by Undo operation ' 'or by quitting with abandoning changes.') def fix_encoding(value): if type(value) != unicode: try: return unicode(value) except: codeset = locale.getpreferredencoding() if codeset == 'UTF-8': codeset = 'latin1' return unicode(value,codeset) else: return value def xml_lang(): (loc,enc) = locale.getlocale() if loc == None: return "" else: return loc.replace('_','-') #------------------------------------------------------------------------- # # force_unicode # #------------------------------------------------------------------------- def force_unicode(n): if type(n) != unicode: return (unicode(n).lower(),unicode(n)) else: return (n.lower(),n) #------------------------------------------------------------------------- # # Clears the modified flag. Should be called after data is saved. # #------------------------------------------------------------------------- def clearHistory_broken(): global _history_brokenFlag _history_brokenFlag = 0 def wasHistory_broken(): return _history_brokenFlag #------------------------------------------------------------------------- # # Short hand function to return either the person's name, or an empty # string if the person is None # #------------------------------------------------------------------------- def family_name(family,db): """Builds a name for the family from the parents names""" father_handle = family.get_father_handle() mother_handle = family.get_mother_handle() father = db.get_person_from_handle(father_handle) mother = db.get_person_from_handle(mother_handle) if father and mother: fname = NameDisplay.displayer.display(father) mname = NameDisplay.displayer.display(mother) name = _("%(father)s and %(mother)s") % { "father" : fname, "mother" : mname} elif father: name = NameDisplay.displayer.display(father) elif mother: name = NameDisplay.displayer.display(mother) else: name = _("unknown") return name def family_upper_name(family,db): """Builds a name for the family from the parents names""" father_handle = family.get_father_handle() mother_handle = family.get_mother_handle() father = db.get_person_from_handle(father_handle) mother = db.get_person_from_handle(mother_handle) if father and mother: fname = father.get_primary_name().get_upper_name() mname = mother.get_primary_name().get_upper_name() name = _("%s and %s") % (fname,mname) elif father: name = father.get_primary_name().get_upper_name() else: name = mother.get_primary_name().get_upper_name() return name #------------------------------------------------------------------------- # # # #------------------------------------------------------------------------- def destroy_passed_object(obj): obj.destroy() while gtk.events_pending(): gtk.main_iteration() #------------------------------------------------------------------------- # # # #------------------------------------------------------------------------- def get_detail_text(obj,priv=1): if obj.get_note() != "": details = "%s" % _("Note") else: details = "" if len(obj.get_source_references()) > 0: if details == "": details = _("Source") else: details = "%s, %s" % (details,_("Source")) if priv and obj.get_privacy() == 1: if details == "": details = _("Private") else: details = "%s, %s" % (details,_("Private")) return details #------------------------------------------------------------------------- # # # #------------------------------------------------------------------------- def redraw_list(dlist,clist,func): clist.clear() index = 0 for obj in dlist: col = 0 node = clist.append() for data in func(obj): clist.set_value(node,col,data) col = col + 1 index = index + 1 return index #------------------------------------------------------------------------- # # # #------------------------------------------------------------------------- def delete_selected(obj,list): sel = obj.get_selection() model,node = sel.get_selected() if node: index = model.get_path(node)[0] del list[index] return 1 #------------------------------------------------------------------------- # # # #------------------------------------------------------------------------- def add_menuitem(menu,msg,obj,func): item = gtk.MenuItem(msg) item.set_data('o',obj) item.connect("activate",func) item.show() menu.append(item) #------------------------------------------------------------------------- # # # #------------------------------------------------------------------------- def view_photo(photo): mime_type = photo.get_mime_type() try: data = Mime.get_application(mime_type) prog = data[0] except: return launch(prog,photo.get_path()) def find_file( filename): # try the filename we got try: fname = filename if os.path.isfile( filename): return( filename) except: pass # Build list of elternate encodings encodings = [sys.getfilesystemencoding(), locale.getpreferredencoding(), 'UTF-8', 'ISO-8859-1'] encodings = list(set(encodings)) for enc in encodings: try: fname = filename.encode(enc) if os.path.isfile( fname): return fname except: pass # not found return '' def find_folder( filename): # try the filename we got try: fname = filename if os.path.isdir( filename): return( filename) except: pass # Build list of elternate encodings try: encodings = [sys.getfilesystemencoding(), locale.getpreferredencoding(), 'UTF-8', 'ISO-8859-1'] except: encodings = [sys.getfilesystemencoding(), 'UTF-8', 'ISO-8859-1'] encodings = list(set(encodings)) for enc in encodings: try: fname = filename.encode(enc) if os.path.isdir( fname): return fname except: pass # not found return '' #------------------------------------------------------------------------- # # # #------------------------------------------------------------------------- def build_string_optmenu(mapping, start_val): index = 0 start_index = 0 keys = mapping.keys() keys.sort() myMenu = gtk.Menu() for key in keys: if key == "default": menuitem = gtk.MenuItem(_("default")) else: menuitem = gtk.MenuItem(key) menuitem.set_data("d", mapping[key]) menuitem.set_data("l", key) menuitem.show() myMenu.append(menuitem) if key == start_val: start_index = index index = index + 1 if start_index: myMenu.set_active(start_index) return myMenu #------------------------------------------------------------------------- # # # #------------------------------------------------------------------------- def build_columns(tree,list): cnum = 0 for name in list: renderer = gtk.CellRendererText() renderer.set_fixed_height_from_font(1) column = gtk.TreeViewColumn(name[0],renderer,text=cnum) column.set_min_width(name[1]) if name[2] >= 0: column.set_sort_column_id(name[2]) if name[0] == '': column.set_clickable(True) column.set_visible(False) cnum = cnum + 1 tree.append_column(column) #------------------------------------------------------------------------- # # Iterate over ancestors. # #------------------------------------------------------------------------- def for_each_ancestor(db, start, func, data): """ Recursively iterate (breadth-first) over ancestors of people listed in start. Call func(data,pid) for the Id of each person encountered. Exit and return 1, as soon as func returns true. Return 0 otherwise. """ todo = start doneIds = {} while len(todo): p_handle = todo.pop() p = db.get_person_from_handle(p_handle) # Don't process the same handle twice. This can happen # if there is a cycle in the database, or if the # initial list contains X and some of X's ancestors. if doneIds.has_key(p_handle): continue doneIds[p_handle] = 1 if func(data,p_handle): return 1 for fam_handle in p.get_parent_family_handle_list(): fam = db.get_family_from_handle(fam_handle) if fam: f_handle = fam.get_father_handle() m_handle = fam.get_mother_handle() if f_handle: todo.append(f_handle) if m_handle: todo.append(m_handle) return 0 def title(n): return '%s' % n def set_title_label(xmlobj,t): title_label = xmlobj.get_widget('title') title_label.set_text('%s' % t) title_label.set_use_markup(True) def set_titles(window,title,t,msg=None): if title: title.set_text('%s' % t) title.set_use_markup(True) if msg: window.set_title('%s - GRAMPS' % msg) else: window.set_title('%s - GRAMPS' % t) window.set_icon_from_file(const.icon) def gfloat(val): """Converts to floating number, taking care of possible locale differences. Useful for reading float values from text entry fields while under non-English locale. """ try: return float(val) except: try: return float(val.replace('.',',')) except: return float(val.replace(',','.')) return 0.0 def gformat(val): """Performs ('%.3f' % val) formatting with the resulting string always using dot ('.') as a decimal point. Useful for writing float values into XML when under non-English locale. """ decimal_point = locale.localeconv()['decimal_point'] return_val = "%.3f" % val return return_val.replace(decimal_point,'.') def search_for(name): name = name.split()[0] for i in os.environ['PATH'].split(':'): fname = os.path.join(i,name) if os.access(fname,os.X_OK) and not os.path.isdir(fname): return 1 return 0 #------------------------------------------------------------------------- # # Change label appearance # #------------------------------------------------------------------------- def bold_label(label,widget=None): if label.__class__ == gtk.Label: text = unicode(label.get_text()) text = text.replace('','') text = text.replace('','') label.set_text("%s" % text ) label.set_use_markup(True) else: clist = label.get_children() text = unicode(clist[1].get_text()) text = text.replace('','') text = text.replace('','') clist[0].show() clist[1].set_text("%s" % text ) clist[1].set_use_markup(True) if widget: widget.window.set_cursor(None) def unbold_label(label,widget=None): if label.__class__ == gtk.Label: text = unicode(label.get_text()) text = text.replace('','') text = text.replace('','') text = text.replace('','') text = text.replace('','') label.set_text(text) label.set_use_markup(False) else: clist = label.get_children() text = unicode(clist[1].get_text()) text = text.replace('','') text = text.replace('','') text = text.replace('','') text = text.replace('','') clist[0].hide() clist[1].set_text(text) clist[1].set_use_markup(False) if widget: widget.window.set_cursor(None) def temp_label(label,widget=None): if label.__class__ == gtk.Label: text = unicode(label.get_text()) text = text.replace('','') text = text.replace('','') label.set_text("%s" % text ) label.set_use_markup(True) else: clist = label.get_children() text = unicode(clist[1].get_text()) text = text.replace('','') text = text.replace('','') clist[0].hide() clist[1].set_text("%s" % text ) clist[1].set_use_markup(True) if widget: widget.window.set_cursor(gtk.gdk.Cursor(gtk.gdk.WATCH)) #------------------------------------------------------------------------- # # create_id # #------------------------------------------------------------------------- rand = random.Random(time.time()) def create_id(): return "%08x%08x" % ( int(time.time()*10000), rand.randint(0,sys.maxint)) def probably_alive(person,db,current_year=None,limit=0): """Returns true if the person may be alive. This works by a process of emlimination. If we can't find a good reason to believe that someone is dead then we assume they must be alive. """ if not current_year: time_struct = time.localtime(time.time()) current_year = time_struct[0] death_year = None # If the recorded death year is before current year then # things are simple. if person.death_ref: death = db.get_event_from_handle(person.death_ref.ref) if death.get_date_object().get_start_date() != RelLib.Date.EMPTY: death_year = death.get_date_object().get_year() if death_year - limit < current_year: return False # Look for Cause Of Death, Burial or Cremation events. # These are fairly good indications that someone's not alive. for ev_ref in person.event_ref_list: ev = db.get_event_from_handle(ev_ref.ref) if ev and int(ev.get_type()) in [RelLib.EventType.CAUSE_DEATH, RelLib.EventType.BURIAL, RelLib.EventType.CREMATION]: if not death_year: death_year = ev.get_date_object().get_year() if ev.get_date_object().get_start_date() != RelLib.Date.EMPTY: if ev.get_date_object().get_year() - limit < current_year: return False # For any other event of this person, check whether it happened # too long ago. If so then the person is likely dead now. elif ev and too_old(ev.get_date_object(),current_year): return False birth_year = None # If they were born within 100 years before current year then # assume they are alive (we already know they are not dead). if person.birth_ref: birth = db.get_event_from_handle(person.birth_ref.ref) if birth.get_date_object().get_start_date() != RelLib.Date.EMPTY: if not birth_year: birth_year = birth.get_date_object().get_year() # Check whether the birth event is too old because the # code above did not look at birth, only at other events if too_old(birth.get_date_object(),current_year): return False if not_too_old(birth.get_date_object(),current_year): return True if not birth_year and death_year: if death_year > current_year + 110: # person died more tha 110 after current year return False # Neither birth nor death events are available. Try looking # for descendants that were born more than a lifespan ago. min_generation = 13 def descendants_too_old (person, years): for family_handle in person.get_family_handle_list(): family = db.get_family_from_handle(family_handle) for child_ref in family.get_child_ref_list(): child_handle = child_ref.ref child = db.get_person_from_handle(child_handle) if child.birth_ref: child_birth = db.get_event_from_handle(child.birth_ref.ref) dobj = child_birth.get_date_object() if dobj.get_start_date() != RelLib.Date.EMPTY: d = RelLib.Date(dobj) val = d.get_start_date() val = d.get_year() - years d.set_year(val) if not not_too_old (d,current_year): return True if child.death_ref: child_death = db.get_event_from_handle(child.death_ref.ref) dobj = child_death.get_date_object() if dobj.get_start_date() != RelLib.Date.EMPTY: if not not_too_old (dobj,current_year): return True if descendants_too_old (child, years + min_generation): return True return False # If there are descendants that are too old for the person to have # been alive in the current year then they must be dead. try: if descendants_too_old (person, min_generation): return False except RuntimeError: raise Errors.DatabaseError( _("Database error: %s is defined as his or her own ancestor") % NameDisplay.displayer.display(person)) average_generation_gap = 20 def ancestors_too_old (person, year): family_handle = person.get_main_parents_family_handle() if family_handle: family = db.get_family_from_handle(family_handle) father_handle = family.get_father_handle() if father_handle: father = db.get_person_from_handle(father_handle) if father.birth_ref: father_birth = db.get_event_from_handle(father.birth_ref.ref) dobj = father_birth.get_date_object() if dobj.get_start_date() != RelLib.Date.EMPTY: if not not_too_old (dobj,year - average_generation_gap): #print father.get_primary_name().get_name(), " father of ", person.get_primary_name().get_name(), " is too old by birth. birth year ", dobj.get_year(), " test year ", year - average_generation_gap return True #else: #print father.get_primary_name().get_name(), " father of ", person.get_primary_name().get_name(), " is NOT too old by birth. birth year ", dobj.get_year(), " test year ", year - average_generation_gap if father.death_ref: father_death = db.get_event_from_handle(father.death_ref.ref) dobj = father_death.get_date_object() if dobj.get_start_date() != RelLib.Date.EMPTY: if dobj.get_year() < year - average_generation_gap: #print father.get_primary_name().get_name(), " father of ", person.get_primary_name().get_name(), " is too old by death." return True if ancestors_too_old (father, year - average_generation_gap): return True mother_handle = family.get_mother_handle() if mother_handle: mother = db.get_person_from_handle(mother_handle) if mother.birth_ref: mother_birth = db.get_event_from_handle(mother.birth_ref.ref) dobj = mother_birth.get_date_object() if dobj.get_start_date() != RelLib.Date.EMPTY: if not not_too_old (dobj,year - average_generation_gap): #print mother.get_primary_name().get_name(), " mother of ", person.get_primary_name().get_name(), " is too old by birth. birth year ", dobj.get_year(), " test year ", year - average_generation_gap return True #else: #print mother.get_primary_name().get_name(), " mother of ", person.get_primary_name().get_name(), " is NOT too old by birth. birth year ", dobj.get_year(), " test year ", year - average_generation_gap if mother.death_ref: mother_death = db.get_event_from_handle(mother.death_ref.ref) dobj = mother_death.get_date_object() if dobj.get_start_date() != RelLib.Date.EMPTY: if dobj.get_year() < year - average_generation_gap: #print mother.get_primary_name().get_name(), " mother of ", person.get_primary_name().get_name(), " is too old by death." return True if ancestors_too_old (mother, year - average_generation_gap): return True return False # If there are ancestors that would be too old in the current year # then assume our person must be dead too. if ancestors_too_old (person, current_year): #print person.get_primary_name().get_name(), " is dead because ancestors are too old." return False # If we can't find any reason to believe that they are dead we # must assume they are alive. #print person.get_primary_name().get_name(), " is probably alive." return True def not_too_old(date,current_year=None): if not current_year: time_struct = time.localtime(time.time()) current_year = time_struct[0] year = date.get_year() if year > current_year: return False return (year != 0 and current_year - year < 110) def too_old(date,current_year=None): if current_year: the_current_year = current_year else: time_struct = time.localtime(time.time()) the_current_year = time_struct[0] year = date.get_year() if year > the_current_year: return True return (year != 0 and the_current_year - year > 150) #------------------------------------------------------------------------- # # # #------------------------------------------------------------------------- def get_source_referents(source_handle,db): """ Find objects that refer the source. This function finds all primary objects that refer (directly or through secondary child-objects) to a given source handle in a given database. """ # Persons person_list = [ handle \ for handle in db.get_person_handles(sort_handles=False) \ if db.get_person_from_handle(handle).has_source_reference(source_handle) ] # Families family_list = [ handle for handle in db.get_family_handles() \ if db.get_family_from_handle(handle).has_source_reference(source_handle) ] # Events event_list = [ handle for handle in db.get_event_handles() \ if db.get_event_from_handle(handle).has_source_reference(source_handle) ] # Places place_list = [ handle for handle in db.get_place_handles() \ if db.get_place_from_handle(handle).has_source_reference(source_handle) ] # Sources source_list = [ handle for handle in db.get_source_handles() \ if db.get_source_from_handle(handle).has_source_reference(source_handle) ] # Media Objects media_list = [ handle for handle in db.get_media_object_handles() \ if db.get_object_from_handle(handle).has_source_reference(source_handle) ] return (person_list,family_list,event_list, place_list,source_list,media_list) def get_media_referents(media_handle,db): """ Find objects that refer the media object. This function finds all primary objects that refer to a given media handle in a given database. """ # Persons person_list = [ handle \ for handle in db.get_person_handles(sort_handles=False) \ if media_handle in \ [photo.get_reference_handle() for photo \ in db.get_person_from_handle(handle).get_media_list()] ] # Families family_list = [ handle for handle in db.get_family_handles() \ if media_handle in \ [photo.get_reference_handle() for photo \ in db.get_family_from_handle(handle).get_media_list()] ] # Events event_list = [ handle for handle in db.get_event_handles() \ if media_handle in \ [photo.get_reference_handle() for photo \ in db.get_event_from_handle(handle).get_media_list()] ] # Places place_list = [ handle for handle in db.get_place_handles() \ if media_handle in \ [photo.get_reference_handle() for photo \ in db.get_place_from_handle(handle).get_media_list()] ] # Sources source_list = [ handle for handle in db.get_source_handles() \ if media_handle in \ [photo.get_reference_handle() for photo \ in db.get_source_from_handle(handle).get_media_list()] ] return (person_list,family_list,event_list,place_list,source_list) #------------------------------------------------------------------------- # # # #------------------------------------------------------------------------- _NEW_NAME_PATTERN = '%sUntitled_%d.%s' def get_new_filename(ext,folder='~/'): ix = 1 while os.path.isfile(os.path.expanduser(_NEW_NAME_PATTERN % (folder,ix,ext) )): ix = ix + 1 return os.path.expanduser(_NEW_NAME_PATTERN % (folder,ix,ext)) def get_type_converter(val): """ Returns function that converts strings into the type of val. """ val_type = type(val) if val_type in (str,unicode): return unicode elif val_type == int: return int elif val_type == float: return float elif val_type in (list,tuple): return list def type_name(val): """ Returns the name the type of val. Only numbers and strings are supported. The rest becomes strings (unicode). """ val_type = type(val) if val_type == int: return 'int' elif val_type == float: return 'float' elif val_type in (str,unicode): return 'unicode' return 'unicode' def get_type_converter_by_name(val_str): """ Returns function that converts strings into the type given by val_str. Only numbers and strings are supported. The rest becomes strings (unicode). """ if val_str == 'int': return int elif val_str == 'float': return float elif val_str in ('str','unicode'): return unicode return unicode def relative_path(original, base): if not os.path.exists(original) or not os.path.isdir(base): return original base_list = (os.path.abspath(base)).split(os.sep) target_list = (os.path.abspath(original)).split(os.sep) # Starting from the filepath root, work out how much of the filepath is # shared by base and target. for i in range(min(len(base_list), len(target_list))): if base_list[i] <> target_list[i]: break else: i+=1 rel_list = [os.pardir] * (len(base_list)-i) + target_list[i:] return os.path.join(*rel_list) class ProgressMeter: """ Progress meter class for GRAMPS. """ def __init__(self,title,header=''): """ Specify the title and the current pass header. """ self.old_val = -1 self.ptop = gtk.Dialog() self.ptop.connect('delete_event',self.warn) self.ptop.set_has_separator(False) self.ptop.set_title(title) self.ptop.set_border_width(12) self.ptop.vbox.set_spacing(10) lbl = gtk.Label('%s' % title) lbl.set_use_markup(True) self.lbl = gtk.Label(header) self.lbl.set_use_markup(True) self.ptop.vbox.add(lbl) self.ptop.vbox.add(self.lbl) self.ptop.vbox.set_border_width(24) self.pbar = gtk.ProgressBar() self.ptop.set_size_request(350,125) self.ptop.vbox.add(self.pbar) self.ptop.show_all() if header == '': self.lbl.hide() def set_pass(self,header,total): """ Reset for another pass. Provide a new header and define number of steps to be used. """ if header == '': self.lbl.hide() else: self.lbl.show() self.pbar_max = total self.pbar_index = 0.0 self.lbl.set_text(header) self.pbar.set_fraction(0.0) while gtk.events_pending(): gtk.main_iteration() def step(self): """Click the progress bar over to the next value. Be paranoid and insure that it doesn't go over 100%.""" self.pbar_index = self.pbar_index + 1.0 if (self.pbar_index > self.pbar_max): self.pbar_index = self.pbar_max val = int(100*self.pbar_index/self.pbar_max) if val != self.old_val: self.pbar.set_text("%d%%" % val) self.pbar.set_fraction(val/100.0) self.old_val = val while gtk.events_pending(): gtk.main_iteration() def warn(self,*obj): WarningDialog( _("Attempt to force closing the dialog"), _("Please do not force closing this important dialog."), self.ptop) return True def close(self): """ Close the progress meter """ self.ptop.destroy() def launch(prog_str,path): subval = { '%F' : path, '%f' : path, '%u' : path, '%U' : path, '%n' : path, '%N' : path, } prog_data = prog_str.split() prog = prog_data[0] prog_list = [] need_path = True if len(prog_data) > 1: for item in prog_data: if subval.has_key(item): need_path = False value = subval[item] else: value = item prog_list.append(value) else: prog_list = [prog_data[0]] if need_path: prog_list.append(path) os.spawnvpe(os.P_NOWAIT, prog, prog_list, os.environ)