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If there are a lot of lookup keys, or if they are close together, it would be more efficient to sort the keys, do a BTreeMap::range on the min/max, and then iterate over that, pulling out the matches.

However, if there are few keys, or very spread out, it would be faster to do a sequence of BTreeMap::get calls.

It looks like Rust doesn't publicly expose any of the internals of the BTreeMap implementation, making it more difficult to add a multi_get or something here. It would be possible to do some stats on the array of lookup keys, and then dispatch between the range and get strategies.

Am I overlooking something, or is there some crate that provides such functionality?

Here is a rough benchmark. With a setup like:

let map = (0u64..1_000_000).into_iter().map(|x| (x, x) ).collect::<BTreeMap<_, _>>();
// sparse, expected best case for multiple get calls
let keys = vec![0, 1_000_000];
// vs. dense, expected best case for range strategy
let keys = (100..200).collect::<Vec<_>>();

I get the following benchmark results:

test bench_multi_get_dense  ... bench:       2,048 ns/iter (+/- 39)                                                     
test bench_range_get_dense  ... bench:         880 ns/iter (+/- 12)                                                     
test bench_multi_get_sparse ... bench:         101 ns/iter (+/- 3)                                                      
test bench_range_get_sparse ... bench:   5,449,585 ns/iter (+/- 526,837)
  • And your benchmark come from ? – Stargateur Dec 14 '19 at 23:44

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