def interquartile_range_values(self): if len(self.__value) == 0: print("self.__value cannot be empty") return None for key in self.__value: if not isinstance(self.__value[key], (int, float)): print("all values of self.__value must be numbers") return None array = [] for key in self.__value: array.append(self.__value[key]) array.sort() if len(array) == 1: return array[0] lower_quartile = helper_functions.reusable_lower_quartile(array) upper_quartile = helper_functions.reusable_upper_quartile(array) interquartile_range = upper_quartile - lower_quartile return interquartile_range
def get_interquartile_range(self): if len(self.__value) == 0: print("self.__value cannot be empty") return None self.__value.sort() lower_quartile = helper_functions.reusable_lower_quartile(self.__value) upper_quartile = helper_functions.reusable_upper_quartile(self.__value) interquartile_range = upper_quartile - lower_quartile return interquartile_range
def upper_quartile_keys(self): if len(self.__value) == 0: print("self.__value cannot be empty") return None for key in self.__value: if not isinstance(key, (int, float)): print("all keys of self.__value must be numbers") return None array = [] for key in self.__value: array.append(key) array.sort() if len(array) == 1: return array[0] upper_quartile = helper_functions.reusable_upper_quartile(array) return upper_quartile
def upper_quartile_values_if_key(self, condition=" "): if len(self.__value) == 0: print("self.__value cannot be empty") return None for key in self.__value: if not isinstance(self.__value[key], (int, float)): print("all values of self.__value must be numbers") return None array = [] for key in self.__value: if key == condition: array.append(self.__value[key]) array.sort() if len(array) == 1: return array[0] upper_quartile = helper_functions.reusable_upper_quartile(array) return upper_quartile