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I'm trying to multiply all elements in a vector but I can't figure out how to do this with a reference. Here is an example:

struct S<T> {
    elements: Vec<T>,
}

impl<T> std::ops::MulAssign<T> for S<T>
where
    T: std::ops::MulAssign,
{
    fn mul_assign(&mut self, val: T) {
        for i in 0..self.elements.len() {
            self.elements[i] *= val;
        }
    }
}

This doesn't compile:

error[E0382]: use of moved value: `val`
  --> src/lib.rs:11:33
   |
9  |     fn mul_assign(&mut self, val: T) {
   |                              --- move occurs because `val` has type `T`, which does not implement the `Copy` trait
10 |         for i in 0..self.elements.len() {
11 |             self.elements[i] *= val;
   |                                 ^^^ value moved here, in previous iteration of loop

I've tried this with references in different ways, but I didn't succeed. How do you do this? I would prefer to implement this without the Copy trait.

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2 Answers 2

4

Maybe like this?

struct S<T> {
    elements: Vec<T>,
}

impl<T> std::ops::MulAssign<&T> for S<T>
where
    for<'a> T: std::ops::MulAssign<&'a T>,
{
    fn mul_assign(&mut self, val: &T) {
        for i in self.elements.iter_mut() {
            *i *= val;
        }
    }
}
  • Uses iter_mut to iterate over vector
  • Requires that your elements support multiplication by borrowed T (which seems to be the case for isize and others
-4

Extra notes:

I wouldn't recommend direct index assignment such as elements[i]. You can achieve the same with a for element in self.elements. Rust iterators will directly understand you want to iterate over the whole vec, so you can apply the processing on the element object. A direct index access will add bound-checking at runtime, making it a slower solution, instead of safely iterating over the array with the length pre-calculated.

Furthermore, if you want to apply the same processing over the vec, the .map() method can help greatly, taking a closure to defiune the processing you want. Rust offers many such functional higher-order-functions, that are much more concise and efficient.

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  • 1
    This won't do anything as the adapter is not consumed. You can immediately see, this can't possibly mutate the Vector. Were you looking for .iter_mut().for_each(...)?
    – L. Riemer
    Apr 28, 2020 at 6:59
  • oh yeah, iter_mut() should be a better generator. I woiuld rather use for_each for things that affect other variables, map is more appropriate for such inner processing. My point was to at least steer away from direct indexing, which is not a very rust-like way of doing things, introduces a slower run time bound checker impacting performance, and is arguably harder to read and understand.
    – LotB
    Apr 28, 2020 at 9:58
  • Friendly pointer: Maybe you should go read a little more on rusts iterators, especially their so-called lazyness. The only way to actually do a thing with an iterator is by driving it, using consumers like fold, count, for_each, etc. The value returned by .map(...) is just a struct implementing the Iterator trait for this conceptually 'mapped' iterator, it doesn't do a thing by itself.
    – L. Riemer
    Apr 28, 2020 at 20:25

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