pub struct Dest<'a> {
    pub data: Option<&'a i32>,

pub struct Src<'a> {
    pub data: Option<&'a i32>,

pub trait Flowable<'a: 'b, 'b> {
    fn flow(&'a self, dest: &mut Dest<'b>);

impl<'a: 'b, 'b> Flowable<'a, 'b> for Src<'a> {
    fn flow(&self, dest: &mut Dest<'b>) {
        dest.data = self.data;

struct ContTrait<'a, 'b> {
    pub list: Vec<Box<Flowable<'a, 'b> + 'a>>,

impl<'a: 'b, 'b> Flowable<'a, 'b> for ContTrait<'a, 'b> {
    fn flow(&'a self, dest: &mut Dest<'b>) {
        for flowable in self.list.iter() {

fn main() {
    let x1 = 15;
    let x2 = 20;
    let mut c = ContTrait { list: Vec::new() };

    let mut dest = Dest { data: Some(&x2) };
    c.list.push(Box::new(Src { data: Some(&x1) }));
    c.flow(&mut dest);

I'm struggling to implement passing a reference from one struct to another struct. Everytime I progress a little bit, there will be a new block. What I want to achieve looks trivial in language like C++, for type Src, a trait Flowable is defined if certain condition is met, a reference in A will be passed to type Dest. I have played for a while with lifetime specifier to make Rust compiler happy. Now I also implement same trait for type ContTrait which is a collection of Flowable and this ContTrait also implment trait Flowable to iterate every object in it and call flow. This is a simplied case for real world usage.

I just can't figure out why Rust compiler reports

error[E0597]: `c` does not live long enough
  --> src\main.rs:38:5
38 |   c.flow(&mut dest);
   |   ^ borrowed value does not live long enough
39 | }
   | -
   | |
   | `c` dropped here while still borrowed
   | borrow might be used here, when `c` is dropped and runs the destructor for type `ContTrait<'_, '_>
  • Please run rustfmt next time. Also make sure, that the line number in the error match your actual line numbers in the example. – hellow Dec 14 '18 at 10:54
  • 1
    I see a lot of <'a: 'b, 'b>. That is redundant and can be replaced by <'a> and replace all 'b with 'a. – hellow Dec 14 '18 at 10:55
  • "What I want to achieve looks trivial in language like C++[.]" I doubt it. Here's the nearest I could get in C++ to the corrected Rust code. You're probably thinking of something simpler, which would be easier in C++, but has a little more friction in Rust, like requiring some unsafe { ... } or lots of .clone()s. – trentcl Dec 19 '18 at 22:49
  • (And furthermore, the C++ version is still fragile; for example, you could do this. The explicit lifetimes in the Rust version are exactly what make it safe. For the most part, Rust's lifetimes just formalize rules that also exist in C++ -- they're just enforced by you instead of by Rust.) – trentcl Dec 19 '18 at 23:00
pub trait Flowable<'a: 'b, 'b> {
    fn flow(&'a self, dest: &mut Dest<'b>);

The &'a self here is at the core of the problem. It says that the object flow is called on must outlive the lifetime dest is parametrized with.

In main, you do

c.flow(&mut dest);

and dest is implicitly parametrized with the lifetime of x2. Since you call flow on c, you imply that c must outlive x2, which it doesn't.

If you remove the 'a bound on the self reference in the trait definition and the ContTrait impl, the code compiles.

  • Thanks for you suggestion and explanation. – Haoliang Jiang Dec 14 '18 at 11:14
  • 2
    As a rule of thumb: You propably don't want to use &'a self, most of the time. There are some legit cases, e.g. where the return value of a function depends on self and the compiler can't figure it out, but normally &self is all you ever want. – hellow Dec 14 '18 at 11:42

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