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miden-crypto/benches/smt-subtree.rs

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use std::{fmt::Debug, hint, mem, time::Duration};
use criterion::{criterion_group, criterion_main, BatchSize, BenchmarkId, Criterion};
use miden_crypto::{
hash::rpo::RpoDigest,
merkle::{build_subtree_for_bench, NodeIndex, SmtLeaf, SubtreeLeaf, SMT_DEPTH},
Felt, Word, ONE,
};
use rand_utils::prng_array;
use winter_utils::Randomizable;
const PAIR_COUNTS: [u64; 5] = [1, 64, 128, 192, 256];
fn smt_subtree_even(c: &mut Criterion) {
let mut seed = [0u8; 32];
let mut group = c.benchmark_group("subtree8-even");
for pair_count in PAIR_COUNTS {
let bench_id = BenchmarkId::from_parameter(pair_count);
group.bench_with_input(bench_id, &pair_count, |b, &pair_count| {
b.iter_batched(
|| {
// Setup.
let entries: Vec<(RpoDigest, Word)> = (0..pair_count)
.map(|n| {
// A single depth-8 subtree can have a maximum of 255 leaves.
let leaf_index = ((n as f64 / pair_count as f64) * 255.0) as u64;
let key = RpoDigest::new([
generate_value(&mut seed),
ONE,
Felt::new(n),
Felt::new(leaf_index),
]);
let value = generate_word(&mut seed);
(key, value)
})
.collect();
let mut leaves: Vec<_> = entries
.iter()
.map(|(key, value)| {
let leaf = SmtLeaf::new_single(*key, *value);
let col = NodeIndex::from(leaf.index()).value();
let hash = leaf.hash();
SubtreeLeaf { col, hash }
})
.collect();
leaves.sort();
leaves.dedup_by_key(|leaf| leaf.col);
leaves
},
|leaves| {
// Benchmarked function.
let (subtree, _) = build_subtree_for_bench(
hint::black_box(leaves),
hint::black_box(SMT_DEPTH),
hint::black_box(SMT_DEPTH),
);
assert!(!subtree.is_empty());
},
BatchSize::SmallInput,
);
});
}
}
fn smt_subtree_random(c: &mut Criterion) {
let mut seed = [0u8; 32];
let mut group = c.benchmark_group("subtree8-rand");
for pair_count in PAIR_COUNTS {
let bench_id = BenchmarkId::from_parameter(pair_count);
group.bench_with_input(bench_id, &pair_count, |b, &pair_count| {
b.iter_batched(
|| {
// Setup.
let entries: Vec<(RpoDigest, Word)> = (0..pair_count)
.map(|i| {
let leaf_index: u8 = generate_value(&mut seed);
let key = RpoDigest::new([
ONE,
ONE,
Felt::new(i),
Felt::new(leaf_index as u64),
]);
let value = generate_word(&mut seed);
(key, value)
})
.collect();
let mut leaves: Vec<_> = entries
.iter()
.map(|(key, value)| {
let leaf = SmtLeaf::new_single(*key, *value);
let col = NodeIndex::from(leaf.index()).value();
let hash = leaf.hash();
SubtreeLeaf { col, hash }
})
.collect();
leaves.sort();
leaves
},
|leaves| {
let (subtree, _) = build_subtree_for_bench(
hint::black_box(leaves),
hint::black_box(SMT_DEPTH),
hint::black_box(SMT_DEPTH),
);
assert!(!subtree.is_empty());
},
BatchSize::SmallInput,
);
});
}
}
criterion_group! {
name = smt_subtree_group;
config = Criterion::default()
.measurement_time(Duration::from_secs(40))
.sample_size(60)
.configure_from_args();
targets = smt_subtree_even, smt_subtree_random
}
criterion_main!(smt_subtree_group);
// HELPER FUNCTIONS
// --------------------------------------------------------------------------------------------
fn generate_value<T: Copy + Debug + Randomizable>(seed: &mut [u8; 32]) -> T {
mem::swap(seed, &mut prng_array(*seed));
let value: [T; 1] = rand_utils::prng_array(*seed);
value[0]
}
fn generate_word(seed: &mut [u8; 32]) -> Word {
mem::swap(seed, &mut prng_array(*seed));
let nums: [u64; 4] = prng_array(*seed);
[Felt::new(nums[0]), Felt::new(nums[1]), Felt::new(nums[2]), Felt::new(nums[3])]
}