2

I have a vector of prices (f64). I would like to compute the highest price.

What is the current easiest and most idiomatic way to compute the max of a collection of f64 in rust ?

There has been some discussion about Ord and f64 but I am not sure what is the most up-to-date and less hacky way to do so.

I rely on the following but I imagined there was some built in operation

let max = prices.iter().fold(None, |r, &n| match r {
    Some(p) => Some(f64::max(p, n)),
    None => Some(e),
});

(which is just a fold for some free monoid)

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  • 17
    This is not an answer to your question, but: Do not express prices via floating-point types. There are numerous pitfalls you'll never find a way out of. Either express prices via integers (e.g. in cents) or use a full-precision Decimal type. – user2722968 Oct 3 '20 at 15:55
  • not a bad advice ideed... – nicolas Oct 3 '20 at 16:04
2

As of Rust 1.43, you can write this:

my_iterator.fold(f64::NEG_INFINITY, f64::max)

Explanation: use f64::NEG_INFINITY as the initial value, as it is the neutral element for the f64::max operation.

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  • 1
    When the iterator is empty, the negative infinity will infect the rest of your code. Depending on the context this may be fine or it may be a problem for downstream processing. I've written code like this before but it's important to make sure that the number crunching you do on the result won't choke on an infinity. Jason's answer has the same issue, but NaNs tend to be even more infectious than infinities and fail in more obvious ways, so that might be better if the iterator is expected to never be empty. – trentcl Mar 3 at 12:23
5

I'm unaware of different ways to do so, but I've used the following in the past:

let arr = [1.0, -42.0, 0.0, -5.0, 42.0, 7.0];
let max = arr.iter().copied().fold(f64::NAN, f64::max) // 42.0
5

As yet another alternative: it's still unstable/nightly-only, but there's a total_cmp method on f32 and f64 that you could use with max_by.

arr.iter().max_by(|a, b| a.total_cmp(b))

Rust playground

3

An alternative solution, using the popular ordered-float crate, allows you to use the built-in Iterator::max method:

use ordered_float::NotNan; // 2.0.0

let max = arr
    .iter()
    .copied()
    .map(NotNan::new)
    .flatten() // ignore NAN values (errors from the previous line)
    .max()
    .map(NotNan::into_inner);

This is essentially the same as the idiomatic code you would write to find the maximum value from an array of integers:

let max = arr.iter().copied().max();

The difference is that it adds a NotNan wrapper around each value, which implements Ord. After the result is found, it unwraps the values to get at the inner float. You can apply this pattern to most existing code that works with integers, to update it to work with floats instead.

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