def __contains__(self, k): m = self.__m if (k[1]**2 > 4 * m * k[0] + m**2 if self.__weak_forms else k[1]**2 > 4 * m * k[0]): return False if k[0] < self.__bound: return True elif self.__reduced: return creduce(k, m)[0][0] < self.__bound return False
def __contains__(self, k) : m = self.__m if ( k[1]**2 > 4 * m * k[0] + m**2 if self.__weak_forms else k[1]**2 > 4 * m * k[0] ) : return False if k[0] < self.__bound : return True elif self.__reduced : return creduce(k, m)[0][0] < self.__bound return False
def __contains__(self, k): m = self.__m if k[0] < 0: return False if not self.__weak_forms and k[1]**2 > 4 * m * k[0]: return False if not self.__reduced and k[0] >= self.__bound: return False kred = creduce(k, m)[0] if k[0] >= self.__bound: return False if self.__weak_forms and k[0] < 0: return False return True
def __contains__(self, k) : m = self.__m if k[0] < 0 : return False if not self.__weak_forms and k[1]**2 > 4 * m * k[0] : return False if not self.__reduced and k[0] >= self.__bound : return False kred = creduce(k, m)[0] if k[0] >= self.__bound : return False if self.__weak_forms and k[0] < 0 : return False return True
def reduce(self, s): return creduce(s, self.__m)
def _reduction_function(self): return lambda k: creduce(k, self.__m)
def reduce(self, s) : return creduce(s, self.__m)
def _reduction_function(self) : return lambda k: creduce(k, self.__m)