def object_counter(): """ Returns a tuple that contains counts of how many objects of each model defined in dingos.models are in the database. """ class_names = dingos_class_map.keys() class_names.sort() result = [] for class_name in class_names: result.append((class_name, len(dingos_class_map[class_name].objects.all()))) return result
def object_counter(): """ Returns a tuple that contains counts of how many objects of each model defined in dingos.models are in the database. """ class_names = dingos_class_map.keys() class_names.sort() result = [] for class_name in class_names: result.append( (class_name, len(dingos_class_map[class_name].objects.all()))) return result
def object_counter(): """ Returns a tuple that contains counts of how many objects of each model defined in dingos.models are in the database. """ class_names = dingos_class_map.keys() class_names.sort() result = [] for class_name in class_names: #print "Class %s" % class_name objects_in_db = dingos_class_map[class_name].objects.all() #for o in objects_in_db: # print o result.append((class_name, objects_in_db.count())) return result
def object_counter(): """ Returns a tuple that contains counts of how many objects of each model defined in dingos.models are in the database. """ class_names = dingos_class_map.keys() class_names.sort() result = [] for class_name in class_names: result.append((class_name, len(dingos_class_map[class_name].objects.all()))) #datatypes = DataTypeNameSpace.objects.all() #print "Datatypes" #for dtype in datatypes: # print dtype.uri return result
def object_counter(): """ Returns a tuple that contains counts of how many objects of each model defined in dingos.models are in the database. """ class_names = dingos_class_map.keys() class_names.sort() result = [] for class_name in class_names: result.append( (class_name, len(dingos_class_map[class_name].objects.all()))) #datatypes = DataTypeNameSpace.objects.all() #print "Datatypes" #for dtype in datatypes: # print dtype.uri return result