从 Option 中取出 Result

处理混合错误类型的最基本的手段就是让它们互相包含。

use std::num::ParseIntError;
fn double_first(vec: Vec<&str>) -> Option<Result<i32, ParseIntError>> {
    vec.first().map(|first| {
        first.parse::<i32>().map(|n| 2 * n)
    })
}
fn main() {
    let numbers = vec!["42", "93", "18"];
    let empty = vec![];
    let strings = vec!["tofu", "93", "18"];
    println!("The first doubled is {:?}", double_first(numbers));
    println!("The first doubled is {:?}", double_first(empty));
    // Error 1: the input vector is empty
    println!("The first doubled is {:?}", double_first(strings));
    // Error 2: the element doesn't parse to a number
}

有时候我们不想再处理错误（比如使用 ? 的时候），但如果 Option 是 None 则继续处理错误。一些组合算子可以让我们轻松地交换 Result 和 Option。

use std::num::ParseIntError;
fn double_first(vec: Vec<&str>) -> Result<Option<i32>, ParseIntError> {
    let opt = vec.first().map(|first| {
        first.parse::<i32>().map(|n| 2 * n)
    });
    opt.map_or(Ok(None), |r| r.map(Some))
}
fn main() {
    let numbers = vec!["42", "93", "18"];
    let empty = vec![];
    let strings = vec!["tofu", "93", "18"];
    println!("The first doubled is {:?}", double_first(numbers));
    println!("The first doubled is {:?}", double_first(empty));
    println!("The first doubled is {:?}", double_first(strings));
}