问题
I'm trying to implement a simple interpreter in Rust, for which I have created a Tokens
struct, which takes source characters and produces either a Token
or a ScanError
inside a Result
:
pub struct Tokens<'src> {
chars: Chars<'src>,
}
impl<'src> Iterator for Tokens<'src> {
type Item = Result<Token, ScanError>;
fn next(&mut self) -> Option<Result<Token, ScanError>> {
// ...
}
}
Since Result
implements FromIterator
, it is simple to collect the result to either the first ScanError
or a vector of Token
s:
fn scan_tokens(source: &str) -> Result<Vec<Token>, ScanError> {
let iter = Tokens {
chars: source.chars(),
};
iter.collect()
}
In the case of multiple errors I really want to return every error:
fn scan_tokens(source: &str) -> Result<Vec<Token>, Vec<ScanError>> {
// what goes here?
}
It isn't possible as far as I know to implement my own version of FromIterator
because neither that trait or Result
are local to my crate. Can anyone suggest a clean way of doing this?
I have written an implementation using partition
on the iterator, then unwrapping each Result
, below, but it's not fun to read and doesn't feel like good use of iterators:
type T = Vec<Result<Token, ScanError>>;
fn scan_tokens(source: &str) -> Result<Vec<Token>, Vec<ScanError>> {
let iter = Tokens {
chars: source.chars(),
};
let (tokens_results, error_results): (T, T) = iter.partition(|result| result.is_ok());
let errors: Vec<ScanError> = error_results
.into_iter()
.map(|result| result.unwrap_err())
.collect();
if errors.len() > 0 {
return Err(errors);
}
Ok(tokens_results
.into_iter()
.map(|result| result.unwrap())
.collect())
}
回答1:
unwrapping each
Result
I would use itertools' partition_map to avoid the need to unwrap:
use itertools::{Either, Itertools}; // 0.8.0
fn iterator() -> impl Iterator<Item = Result<i32, bool>> {
vec![Ok(1), Err(false), Ok(2), Err(true), Ok(3)].into_iter()
}
fn example() -> Result<Vec<i32>, Vec<bool>> {
let (values, errors): (Vec<_>, Vec<_>) = iterator().partition_map(|v| match v {
Ok(v) => Either::Left(v),
Err(e) => Either::Right(e),
});
if errors.is_empty() {
Ok(values)
} else {
Err(errors)
}
}
See also:
- What's the most idiomatic way of working with an Iterator of Results?
- How do I stop iteration and return an error when Iterator::map returns a Result::Err?
- How do I perform iterator computations over iterators of Results without collecting to a temporary vector?
You could also use the fact that Option
and Result
implement IntoIterator
to avoid the exact unwrap
, although this still processes one collection twice:
fn example2() -> Result<Vec<i32>, Vec<bool>> {
let (values, errors): (Vec<_>, Vec<_>) = iterator().partition(|result| result.is_ok());
if errors.is_empty() {
Ok(values.into_iter().flat_map(Result::ok).collect())
} else {
Err(errors.into_iter().flat_map(Result::err).collect())
}
}
See also:
- Why does `Option` support `IntoIterator`?
回答2:
An imperative solution is often the most expressive and efficient way to implement some algorithm. It's Rust, not Haskell; not everything needs to be functional.
fn scan_tokens(source: &str) -> Result<Vec<Token>, Vec<ScanError>> {
let iter = Tokens {
chars: source.chars(),
};
let mut tokens = Vec::new();
let mut errors = Vec::new();
for result in iter {
match result {
Ok(token) => {
tokens.push(token);
}
Err(e) => {
errors.push(e);
}
}
}
if errors.is_empty() {
Ok(tokens)
} else {
Err(errors)
}
}
来源:https://stackoverflow.com/questions/55102253/how-do-i-return-a-result-containing-every-error-from-an-iterator-of-results-not