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use ark_ff::PrimeField;
use ark_r1cs_std::{
alloc::AllocVar,
eq::EqGadget,
fields::{nonnative::NonNativeFieldVar, FieldVar},
};
use ark_relations::{
ns,
r1cs::{ConstraintSystem, ConstraintSystemRef, OptimizationGoal},
};
use ark_std::rand::RngCore;
const NUM_REPETITIONS: usize = 1;
fn get_density<BaseField: PrimeField>(cs: &ConstraintSystemRef<BaseField>) -> usize {
match cs {
ConstraintSystemRef::None => panic!("Constraint system is none."),
ConstraintSystemRef::CS(r) => {
let mut cs_bak = r.borrow().clone();
cs_bak.finalize();
let matrices = cs_bak.to_matrices().unwrap();
matrices.a_num_non_zero + matrices.b_num_non_zero + matrices.c_num_non_zero
},
}
}
fn allocation<TargetField: PrimeField, BaseField: PrimeField, R: RngCore>(
cs: ConstraintSystemRef<BaseField>,
rng: &mut R,
) -> (usize, usize) {
let a_native = TargetField::rand(rng);
let constraints_before = cs.num_constraints();
let nonzeros_before = get_density(&cs);
// There will be a check that ensures it has the reasonable number of bits
let _ = NonNativeFieldVar::<TargetField, BaseField>::new_witness(ns!(cs, "alloc a"), || {
Ok(a_native)
})
.unwrap();
let constraints_after = cs.num_constraints();
let nonzeros_after = get_density(&cs);
return (
constraints_after - constraints_before,
nonzeros_after - nonzeros_before,
);
}
fn addition<TargetField: PrimeField, BaseField: PrimeField, R: RngCore>(
cs: ConstraintSystemRef<BaseField>,
rng: &mut R,
) -> (usize, usize) {
let a_native = TargetField::rand(rng);
let a = NonNativeFieldVar::<TargetField, BaseField>::new_witness(ns!(cs, "alloc a"), || {
Ok(a_native)
})
.unwrap();
let b_native = TargetField::rand(rng);
let b = NonNativeFieldVar::<TargetField, BaseField>::new_witness(ns!(cs, "alloc b"), || {
Ok(b_native)
})
.unwrap();
let constraints_before = cs.num_constraints();
let nonzeros_before = get_density(&cs);
let _ = &a + &b;
let constraints_after = cs.num_constraints();
let nonzeros_after = get_density(&cs);
return (
constraints_after - constraints_before,
nonzeros_after - nonzeros_before,
);
}
fn equality<TargetField: PrimeField, BaseField: PrimeField, R: RngCore>(
cs: ConstraintSystemRef<BaseField>,
rng: &mut R,
) -> (usize, usize) {
let a_native = TargetField::rand(rng);
let a1 = NonNativeFieldVar::<TargetField, BaseField>::new_witness(ns!(cs, "alloc a1"), || {
Ok(a_native)
})
.unwrap();
let a2 = NonNativeFieldVar::<TargetField, BaseField>::new_witness(ns!(cs, "alloc a2"), || {
Ok(a_native)
})
.unwrap();
let constraints_before = cs.num_constraints();
let nonzeros_before = get_density(&cs);
a1.enforce_equal(&a2).unwrap();
let constraints_after = cs.num_constraints();
let nonzeros_after = get_density(&cs);
return (
constraints_after - constraints_before,
nonzeros_after - nonzeros_before,
);
}
fn multiplication<TargetField: PrimeField, BaseField: PrimeField, R: RngCore>(
cs: ConstraintSystemRef<BaseField>,
rng: &mut R,
) -> (usize, usize) {
let a_native = TargetField::rand(rng);
let a = NonNativeFieldVar::<TargetField, BaseField>::new_witness(ns!(cs, "initial a"), || {
Ok(a_native)
})
.unwrap();
let b_native = TargetField::rand(rng);
let b = NonNativeFieldVar::<TargetField, BaseField>::new_witness(ns!(cs, "initial b"), || {
Ok(b_native)
})
.unwrap();
let constraints_before = cs.num_constraints();
let nonzeros_before = get_density(&cs);
let _ = &a * &b;
let constraints_after = cs.num_constraints();
let nonzeros_after = get_density(&cs);
return (
constraints_after - constraints_before,
nonzeros_after - nonzeros_before,
);
}
fn inverse<TargetField: PrimeField, BaseField: PrimeField, R: RngCore>(
cs: ConstraintSystemRef<BaseField>,
rng: &mut R,
) -> (usize, usize) {
let num_native = TargetField::rand(rng);
let num = NonNativeFieldVar::<TargetField, BaseField>::new_witness(ns!(cs, "alloc"), || {
Ok(num_native)
})
.unwrap();
let constraints_before = cs.num_constraints();
let nonzeros_before = get_density(&cs);
let _ = num.inverse().unwrap();
let constraints_after = cs.num_constraints();
let nonzeros_after = get_density(&cs);
return (
constraints_after - constraints_before,
nonzeros_after - nonzeros_before,
);
}
macro_rules! nonnative_bench_individual {
($bench_method:ident, $bench_name:ident, $bench_target_field:ty, $bench_base_field:ty) => {
let rng = &mut ark_std::test_rng();
let mut num_constraints = 0;
let mut num_nonzeros = 0;
for _ in 0..NUM_REPETITIONS {
let cs_sys = ConstraintSystem::<$bench_base_field>::new();
let cs = ConstraintSystemRef::new(cs_sys);
cs.set_optimization_goal(OptimizationGoal::Constraints);
let (cur_constraints, cur_nonzeros) =
$bench_method::<$bench_target_field, $bench_base_field, _>(cs.clone(), rng);
num_constraints += cur_constraints;
num_nonzeros += cur_nonzeros;
assert!(cs.is_satisfied().unwrap());
}
let average_constraints = num_constraints / NUM_REPETITIONS;
let average_nonzeros = num_nonzeros / NUM_REPETITIONS;
println!(
"{} takes: {} constraints, {} non-zeros",
stringify!($bench_method),
average_constraints,
average_nonzeros,
);
};
}
macro_rules! nonnative_bench {
($bench_name:ident, $bench_target_field:ty, $bench_base_field:ty) => {
println!(
"For {} to simulate {}",
stringify!($bench_base_field),
stringify!($bench_target_field),
);
nonnative_bench_individual!(
allocation,
$bench_name,
$bench_target_field,
$bench_base_field
);
nonnative_bench_individual!(
addition,
$bench_name,
$bench_target_field,
$bench_base_field
);
nonnative_bench_individual!(
multiplication,
$bench_name,
$bench_target_field,
$bench_base_field
);
nonnative_bench_individual!(
equality,
$bench_name,
$bench_target_field,
$bench_base_field
);
nonnative_bench_individual!(inverse, $bench_name, $bench_target_field, $bench_base_field);
println!("----------------------")
};
}
fn main() {
nonnative_bench!(MNT46Small, ark_mnt4_298::Fr, ark_mnt6_298::Fr);
nonnative_bench!(MNT64Small, ark_mnt6_298::Fr, ark_mnt4_298::Fr);
nonnative_bench!(MNT46Big, ark_mnt4_753::Fr, ark_mnt6_753::Fr);
nonnative_bench!(MNT64Big, ark_mnt6_753::Fr, ark_mnt4_753::Fr);
nonnative_bench!(BLS12MNT4Small, ark_bls12_381::Fr, ark_mnt4_298::Fr);
nonnative_bench!(BLS12, ark_bls12_381::Fq, ark_bls12_381::Fr);
nonnative_bench!(MNT6BigMNT4Small, ark_mnt6_753::Fr, ark_mnt4_298::Fr);
}