Exemple #1
0
        def __recursive_object_hook__(o):
            def __regular_t2a__(p):
                return dict([(int(key), dict([(TimeSlot.__from_string__(timeslot), [Activity.__from_string__(activity) for activity in activities]) for timeslot, activities in timeslot2activites.iteritems()])) for key, timeslot2activites in p.iteritems()])

            if isinstance(o, list):
                return [__recursive_object_hook__(value) for value in o]
            elif "__nephrologist__" in o:
                nephrologist = o["__nephrologist__"]
                id = int(nephrologist["id"]) if "id" in nephrologist else None
                name = str(nephrologist["name"].encode("latin-1")) if "name" in nephrologist else None
                activities = [Activity.__from_string__(flag) for flag in nephrologist["activities"] if "activities" in nephrologist]
                holidays = [__recursive_object_hook__(value) for value in nephrologist["holidays"] if "holidays" in nephrologist]
                preferences = __recursive_object_hook__(nephrologist["preferences"]) if "preferences" in nephrologist else None
                aversions = __recursive_object_hook__(nephrologist["aversions"]) if "aversions" in nephrologist else None
                counters = __recursive_object_hook__(nephrologist["initial_counters"]) if "initial_counters" in nephrologist else None
                return Nephrologist(id, name, activities, holidays, preferences, aversions, counters)
            elif "__date__" in o:
                return datetime.strptime(o["__date__"], "%Y-%m-%d").date()
            elif "__preferences__" in o:
                return Preferences(__regular_t2a__(o["__preferences__"]))
            elif "__aversions__" in o:
                return Aversions(__regular_t2a__(o["__aversions__"]))
            elif "__counter__" in o:
                return Counter(dict([(Activity.__from_string__(key), value) for key, value in o["__counter__"].iteritems()]))
            else:
                return o
Exemple #2
0
 def __regular_t2a__(p):
     return dict([(int(key), dict([(TimeSlot.__from_string__(timeslot), [Activity.__from_string__(activity) for activity in activities]) for timeslot, activities in timeslot2activites.iteritems()])) for key, timeslot2activites in p.iteritems()])