//! impl bool {} impl bool { /// Returns `Some(t)` if the `bool` is [`true`](../std/keyword.true.html), /// or `None` otherwise. /// /// Arguments passed to `then_some` are eagerly evaluated; if you are /// passing the result of a function call, it is recommended to use /// [`then`], which is lazily evaluated. /// /// [`then`]: bool::then /// /// # Examples /// /// ``` /// assert_eq!(false.then_some(0), None); /// assert_eq!(true.then_some(0), Some(0)); /// ``` /// /// ``` /// let mut a = 0; /// let mut function_with_side_effects = || { a += 1; }; /// /// true.then_some(function_with_side_effects()); /// false.then_some(function_with_side_effects()); /// /// // `a` is incremented twice because the value passed to `then_some` is /// // evaluated eagerly. /// assert_eq!(a, 2); /// ``` #[stable(feature = "bool_to_option", since = "1.62.0")] #[inline] pub fn then_some(self, t: T) -> Option { if self { Some(t) } else { None } } /// Returns `Some(f())` if the `bool` is [`true`](../std/keyword.true.html), /// or `None` otherwise. /// /// # Examples /// /// ``` /// assert_eq!(false.then(|| 0), None); /// assert_eq!(true.then(|| 0), Some(0)); /// ``` /// /// ``` /// let mut a = 0; /// /// true.then(|| { a += 1; }); /// false.then(|| { a += 1; }); /// /// // `a` is incremented once because the closure is evaluated lazily by /// // `then`. /// assert_eq!(a, 1); /// ``` #[stable(feature = "lazy_bool_to_option", since = "1.50.0")] #[inline] pub fn then T>(self, f: F) -> Option { if self { Some(f()) } else { None } } }