[英]Cannot borrow as mutable because it is also borrowed as immutable
我正在学习 Rust,我不太明白为什么这不起作用。
#[derive(Debug)]
struct Node {
value: String,
}
#[derive(Debug)]
pub struct Graph {
nodes: Vec<Box<Node>>,
}
fn mk_node(value: String) -> Node {
Node { value }
}
pub fn mk_graph() -> Graph {
Graph { nodes: vec![] }
}
impl Graph {
fn add_node(&mut self, value: String) {
if let None = self.nodes.iter().position(|node| node.value == value) {
let node = Box::new(mk_node(value));
self.nodes.push(node);
};
}
fn get_node_by_value(&self, value: &str) -> Option<&Node> {
match self.nodes.iter().position(|node| node.value == *value) {
None => None,
Some(idx) => self.nodes.get(idx).map(|n| &**n),
}
}
}
#[cfg(test)]
mod tests {
use super::*;
#[test]
fn some_test() {
let mut graph = mk_graph();
graph.add_node("source".to_string());
graph.add_node("destination".to_string());
let source = graph.get_node_by_value("source").unwrap();
let dest = graph.get_node_by_value("destination").unwrap();
graph.add_node("destination".to_string());
}
}
( 游乐场)
这有错误
error[E0502]: cannot borrow `graph` as mutable because it is also borrowed as immutable
--> src/main.rs:50:9
|
47 | let source = graph.get_node_by_value("source").unwrap();
| ----- immutable borrow occurs here
...
50 | graph.add_node("destination".to_string());
| ^^^^^ mutable borrow occurs here
51 | }
| - immutable borrow ends here
Programming Rust中的这个示例与我的非常相似,但它有效:
pub struct Queue {
older: Vec<char>, // older elements, eldest last.
younger: Vec<char>, // younger elements, youngest last.
}
impl Queue {
/// Push a character onto the back of a queue.
pub fn push(&mut self, c: char) {
self.younger.push(c);
}
/// Pop a character off the front of a queue. Return `Some(c)` if there /// was a character to pop, or `None` if the queue was empty.
pub fn pop(&mut self) -> Option<char> {
if self.older.is_empty() {
if self.younger.is_empty() {
return None;
}
// Bring the elements in younger over to older, and put them in // the promised order.
use std::mem::swap;
swap(&mut self.older, &mut self.younger);
self.older.reverse();
}
// Now older is guaranteed to have something. Vec's pop method // already returns an Option, so we're set.
self.older.pop()
}
pub fn split(self) -> (Vec<char>, Vec<char>) {
(self.older, self.younger)
}
}
pub fn main() {
let mut q = Queue {
older: Vec::new(),
younger: Vec::new(),
};
q.push('P');
q.push('D');
assert_eq!(q.pop(), Some('P'));
q.push('X');
let (older, younger) = q.split(); // q is now uninitialized.
assert_eq!(older, vec!['D']);
assert_eq!(younger, vec!['X']);
}
您的问题的MCVE可以简化为:
fn main() {
let mut items = vec![1];
let item = items.last();
items.push(2);
}
error[E0502]: cannot borrow `items` as mutable because it is also borrowed as immutable
--> src/main.rs:4:5
|
3 | let item = items.last();
| ----- immutable borrow occurs here
4 | items.push(2);
| ^^^^^ mutable borrow occurs here
5 | }
| - immutable borrow ends here
您遇到了Rust 旨在防止的确切问题。 您有一个指向向量的引用并试图插入到向量中。 这样做可能需要重新分配向量的内存,从而使任何现有引用无效。 如果发生这种情况并且您使用了item的值,您将访问未初始化的内存,可能会导致崩溃。
在这种特殊情况下,您实际上并没有使用item (或source ,在原始版本中),因此您可以......不调用该行。 我假设您出于某种原因这样做,因此您可以将引用包装在一个块中,以便它们在您尝试再次改变值之前消失:
fn main() {
let mut items = vec![1];
{
let item = items.last();
}
items.push(2);
}
在 Rust 2018 中不再需要这个技巧,因为已经实现了非词法生命周期,但底层限制仍然存在——当有其他对同一事物的引用时,你不能拥有可变引用。 这是The Rust Programming Language 中涵盖的引用规则之一。 仍然不适用于 NLL 的修改示例:
let mut items = vec![1];
let item = items.last();
items.push(2);
println!("{:?}", item);
在其他情况下,您可以复制或克隆向量中的值。 该项目将不再是参考,您可以根据需要修改向量:
fn main() {
let mut items = vec![1];
let item = items.last().cloned();
items.push(2);
}
如果您的类型不可克隆,则可以将其转换为引用计数值(例如Rc或Arc ),然后可以对其进行克隆。 您可能也可能不需要使用内部可变性:
struct NonClone;
use std::rc::Rc;
fn main() {
let mut items = vec![Rc::new(NonClone)];
let item = items.last().cloned();
items.push(Rc::new(NonClone));
}
这个来自 Programming Rust 的例子非常相似
不,不是,因为它根本不使用引用。
尝试将您的不可变借用放在块 {...} 中。 这在块之后结束借用。
#[cfg(test)]
mod tests {
use super::*;
#[test]
fn some_test() {
let mut graph = mk_graph();
graph.add_node("source".to_string());
graph.add_node("destination".to_string());
{
let source = graph.get_node_by_value("source").unwrap();
let dest = graph.get_node_by_value("destination").unwrap();
}
graph.add_node("destination".to_string());
}
}
因此,对于其他任何想解决这个问题并想快速解决问题的人来说——使用克隆而不是引用。 例如,我正在迭代这个单元格列表并想更改一个属性
let created = self.cells
.into_iter()
.map(|c| {
BoardCell {
x: c.x,
y: c.y,
owner: c.owner,
adjacency: c.adjacency.clone(),
}
})
.collect::<Vec<BoardCell>>();
然后我可以通过循环修改这些值:
for c in created {
self.cells[(c.x + c.y * self.size) as usize].adjacency[dir] = count;
}
使用Vec<&BoardCell>只会产生此错误。 不确定这有多生锈,但嘿,它有效。
错误:不能借用......作为不可变的,因为它也被借为可变的
[英]error: cannot borrow … as immutable because it is also borrowed as mutable
不能将 `win` 借为不可变的,因为它也被借为可变的
[英]cannot borrow `win` as immutable because it is also borrowed as mutable
使用结构本身的值更新结构给出:“不能将 `*self` 借为可变的,因为它也被借为不可变的”
[英]update struct using a value from the struct itself gives: "cannot borrow `*self` as mutable because it is also borrowed as immutable"
为什么在将变量移动到 scope 后 Rust 编译器错误“不能作为不可变借用,因为它也作为可变借用”?
[英]Why does the Rust compiler error with "cannot borrow as immutable because it is also borrowed as mutable" after moving the variable into a scope?
在创建别名可变借用之后但在使用它之前使用不可变借用实际上是危险的吗?
[英]Is using an immutable borrow after an aliasing mutable borrow is created but before it is used actually dangerous?
如果没有感知到的引用冲突,在不可变借用之后解决可变借用的最佳方法是什么
[英]What is the best way to resolve mutable borrow after immutable borrow, IF there is no perceived reference conflict
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