def __call__(self, *args): sum_ = sum(*args) if sum_ == len(args): return 1.0 product_ = product(*args) count_ = float(len(args)) return (sum_ - count_ * product_) / (count_ - sum_)
def __call__(self, *args): args = self.checkArgsN(args) sum_ = sum(*args) if sum_ == len(args): return 1.0 product_ = product(*args) count_ = float(len(args)) return (sum_ - count_ * product_) / (count_ - sum_)
def __call__(self, *args): return pow(product(*args), 1.0 / len(args))
def __call__(self,*args): return pow(product(*args),1.0/len(args))
def __call__(self, *args): args = self.checkArgsN(args) return 1.0 - pow(product(*[1.0 - x for x in args]), 1.0 / len(args))
def __call__(self, *args): args = self.checkArgsN(args) return pow(product(*args),1.0/len(args))
def __call__(self, *args): return 1.0 - pow(product(*[1.0 - x for x in args]), 1.0 / len(args))
def __call__(self,*args): return 1.0 - pow(product(*[1.0-x for x in args]),1.0/len(args))