#-*- coding: utf-8 -*- import warnings import inspect from lodel.leapi.datahandlers.datas_base import * ##@brief Data field designed to handle formated strings class FormatString(Varchar): help = 'Automatic string field, designed to use the str % operator to \ build its content' base_type = 'char' ##@brief Build its content with a field list and a format string # @param format_string str # @param max_length int : the maximum length of the handled value # @param field_list list : List of field to use # @param **kwargs def __init__(self, format_string, field_list, **kwargs): self._field_list = field_list self._format_string = format_string super().__init__(internal='automatic',**kwargs) def construct_data(self, emcomponent, fname, datas, cur_value): ret = self._format_string % tuple( datas[fname] for fname in self._field_list) if len(ret) > self.max_length: warnings.warn("Format field overflow. Truncating value") ret = ret[:self.max_length-1] return ret ##@brief Varchar validated by a regex class Regex(Varchar): help = 'String field validated with a regex. Takes two options : \ max_length and regex' base_type = 'char' ##@brief A string field validated by a regex # @param regex str : a regex string (passed as argument to re.compile()) # @param max_length int : the max length for this field (default : 10) # @param **kwargs def __init__(self, regex='', max_length=10, **kwargs): self.regex = regex self.compiled_re = re.compile(regex)#trigger an error if invalid regex super(self.__class__, self).__init__(max_length=max_length, **kwargs) def _check_data_value(self, value): error = None if not self.compiled_re.match(value): value = '' msg = '"%s" doesn\'t match the regex "%s"' % (value, self.regex) error = TypeError(msg) return value, error def can_override(self, data_handler): if not super().can_override(data_handler): return False if data_handler.max_length != self.max_length: return False return True ##@brief Handles uniq ID class UniqID(Integer): help = 'Fieldtype designed to handle editorial model UID' base_type = 'int' ##@brief A uid field # @param **kwargs def __init__(self, **kwargs): kwargs['internal'] = 'automatic' super(self.__class__, self).__init__(primary_key = True, **kwargs) def construct_data(self, emcomponent, fname, datas, cur_value): if cur_value is None: #Ask datasource to provide a new uniqID return emcomponent._ro_datasource.new_numeric_id(emcomponent) return cur_value class LeobjectSubclassIdentifier(Varchar): help = 'Datahandler designed to handle LeObject subclass identifier in DB' base_type = 'varchar' def __init__(self, **kwargs): if 'internal' in kwargs and not kwargs['internal']: raise RuntimeError(self.__class__.__name__+" datahandler can only \ be internal") kwargs['internal'] = True super().__init__(**kwargs) def construct_data(self, emcomponent, fname, datas, cur_value): cls = emcomponent if not inspect.isclass(emcomponent): cls = emcomponent.__class__ return cls.__name__ ##@brief Data field designed to handle concatenated fields class Concat(FormatString): help = 'Automatic strings concatenation' base_type = 'char' ##@brief Build its content with a field list and a separator # @param field_list list : List of field to use # @param max_length int : the maximum length of the handled value # @param separator str # @param **kwargs def __init__(self, field_list, separator = ' ', **kwargs): format_string = separator.join(['%s' for _ in field_list]) super().__init__( format_string = format_string, field_list = field_list, **kwargs) class Password(Varchar): help = 'Handle passwords' pass