2004-03-08 03:20:41 +05:30
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import gobject
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import gtk
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import gtk.glade
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import gnome
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import gnome.ui
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from RelLib import *
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def unique(mylist):
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a = {}
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for val in mylist:
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a[val] = 1
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return a.keys()
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def callback(foo):
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pass
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class JunkIter(gtk.TreeIter):
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def __init__(self):
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pass
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class PeopleModel(gtk.GenericTreeModel):
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def __init__(self,db):
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gtk.GenericTreeModel.__init__(self)
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self.db = db
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self.rebuild_data()
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self.connect('row-inserted',self.on_row_inserted)
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self.connect('row-deleted',self.on_row_deleted)
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def rebuild_data(self):
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2004-03-09 10:42:14 +05:30
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print "rebuild"
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2004-03-08 03:20:41 +05:30
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self.top_iter2path = {}
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self.top_path2iter = {}
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self.iter2path = {}
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self.path2iter = {}
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self.sname_sub = {}
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if not self.db.is_open():
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return
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val = 0
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name_list = self.db.get_surnames()
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for name in name_list:
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self.top_iter2path[unicode(name)] = (val,)
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self.top_path2iter[val] = unicode(name)
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val += 1
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for person_id in self.db.get_person_keys():
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person = self.db.find_person_from_id(person_id)
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surname = unicode(person.get_primary_name().get_surname())
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if self.sname_sub.has_key(surname):
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val = len(self.sname_sub[surname])
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self.sname_sub[surname].append(person_id)
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else:
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self.sname_sub[surname] = [person_id]
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val = 0
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tpl = (surname,val)
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self.iter2path[person_id] = tpl
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self.path2iter[tpl] = person_id
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def on_row_inserted(self,obj,path,iter):
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self.rebuild_data()
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def on_row_deleted(self,obj,path):
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self.rebuild_data()
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2004-03-09 10:42:14 +05:30
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2004-03-08 03:20:41 +05:30
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def find_path(self,iter):
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if self.top_iter2path.has_key(iter):
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return self.top_iter2path[iter]
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else:
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path = self.iter2path.get(iter)
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if path:
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return (self.top_iter2path[path[0]][0],path[1]);
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else:
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return None
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def on_get_flags(self):
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'''returns the GtkTreeModelFlags for this particular type of model'''
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return 0
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def on_get_n_columns(self):
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return 5
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def on_get_path(self, node):
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'''returns the tree path (a tuple of indices at the various
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levels) for a particular node.'''
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if self.top_iter2path.has_key(node):
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return self.top_iter2path[node]
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else:
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(surname,index) = self.iter2path[node]
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return (self.top_iter2path[surname][0],index)
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def on_get_column_type(self,index):
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return gobject.TYPE_STRING
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def on_get_iter(self, path):
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try:
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if len(path)==1:
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return self.top_path2iter[path[0]]
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else:
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surname = self.top_path2iter[path[0]]
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return self.path2iter[(surname,path[1])]
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except:
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return None
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def on_get_value(self,iter,col):
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if self.top_iter2path.has_key(iter):
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if col == 0:
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return iter
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else:
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return ''
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else:
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data = self.db.person_map[str(iter)]
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if col==0:
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return str(data[2].get_name())
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elif col == 1:
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return str(data[0])
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elif col == 2:
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if data[1]:
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return "male"
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else:
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return "female"
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elif col == 3:
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if data[5]:
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return self.db.find_event_from_id(data[5]).get_date()
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else:
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return u""
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elif col == 4:
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if data[6]:
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return self.db.find_event_from_id(data[6]).get_date()
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else:
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return u""
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def on_iter_next(self, node):
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'''returns the next node at this level of the tree'''
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if self.top_iter2path.has_key(node):
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path = self.top_iter2path[node]
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return self.top_path2iter.get(path[0]+1)
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else:
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(surname,val) = self.iter2path[node]
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return self.path2iter.get((surname,val+1))
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def on_iter_children(self,node):
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if node == None:
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return self.top_path2iter[0]
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if self.top_iter2path.has_key(node):
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return self.path2iter.get((node,0))
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return None
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def on_iter_has_child(self, node):
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'''returns true if this node has children'''
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if node == None:
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return 1
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if self.top_iter2path.has_key(node):
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return 1
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return 0
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def on_iter_n_children(self,node):
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if node == NONE:
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return len(self.sname_sub)
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if self.iter2path.has_key(node):
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return len(self.sname_sub[node])
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return 0
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def on_iter_nth_child(self,node,n):
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path = self.top_iter2path.get(node)
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if path:
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return self.path2iter.get((node,n))
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else:
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return None
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def on_iter_parent(self, node):
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'''returns the parent of this node'''
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path = self.iter2path[node]
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if path:
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return path[0]
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return None
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