use ark_bls12_381::{Bls12_381, Fr};
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use ark_ff::UniformRand;
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use ark_poly::{DenseMultilinearExtension, MultilinearExtension};
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use ark_std::test_rng;
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use pcs::{KZGMultilinearPC, MultilinearCommitmentScheme, PCSErrors};
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use std::time::Instant;
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fn main() -> Result<(), PCSErrors> {
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bench_pcs()
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}
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fn bench_pcs() -> Result<(), PCSErrors> {
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let mut rng = test_rng();
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// normal polynomials
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let uni_params = KZGMultilinearPC::<Bls12_381>::setup(&mut rng, 18)?;
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for nv in 4..19 {
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let repetition = if nv < 10 {
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100
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} else if nv < 20 {
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50
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} else {
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10
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};
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let poly = DenseMultilinearExtension::rand(nv, &mut rng);
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let (ck, vk) = uni_params.trim(nv)?;
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let point: Vec<_> = (0..nv).map(|_| Fr::rand(&mut rng)).collect();
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// commit
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let com = {
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let start = Instant::now();
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for _ in 0..repetition {
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let _commit = KZGMultilinearPC::commit(&ck, &poly)?;
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}
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println!(
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"KZG commit for {} variables: {} ns",
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nv,
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start.elapsed().as_nanos() / repetition as u128
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);
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KZGMultilinearPC::commit(&ck, &poly)?
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};
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// open
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let proof = {
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let start = Instant::now();
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for _ in 0..repetition {
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let _open = KZGMultilinearPC::open(&ck, &poly, &point)?;
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}
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println!(
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"KZG open for {} variables: {} ns",
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nv,
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start.elapsed().as_nanos() / repetition as u128
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);
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KZGMultilinearPC::open(&ck, &poly, &point)?
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};
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let value = poly.evaluate(&point).unwrap();
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// verify
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{
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let start = Instant::now();
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for _ in 0..repetition {
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assert!(KZGMultilinearPC::verify(&vk, &com, &point, &value, &proof)?);
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}
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println!(
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"KZG verify for {} variables: {} ns",
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nv,
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start.elapsed().as_nanos() / repetition as u128
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);
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}
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println!("====================================");
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}
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Ok(())
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}
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