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use bellperson::{ConstraintSystem, SynthesisError};
use bellperson_nonnative::{
mp::bignat::BigNat,
util::{convert::nat_to_f, num::Num},
};
use ff::PrimeField;
use nova_snark::bellperson::{
r1cs::{NovaShape, NovaWitness},
shape_cs::ShapeCS,
solver::SatisfyingAssignment,
};
use rug::Integer;
fn synthesize_is_equal<Fr: PrimeField, CS: ConstraintSystem<Fr>>(
cs: &mut CS,
a_val: &Integer,
limb_width: usize,
n_limbs: usize,
) -> Result<(), SynthesisError> {
let a1 = BigNat::alloc_from_nat(
cs.namespace(|| "alloc a2"),
|| Ok(a_val.clone()),
limb_width,
n_limbs,
)?;
let _ = a1.inputize(cs.namespace(|| "make a input"));
let a_num = Num::alloc(cs.namespace(|| "alloc a num"), || {
Ok(nat_to_f(a_val).unwrap())
})?;
let a2 = BigNat::from_num(
cs.namespace(|| "allocate a1_limbs"),
a_num,
limb_width,
n_limbs,
)?;
let _ = a1.equal_when_carried(cs.namespace(|| "check equal"), &a2)?;
Ok(())
}
#[allow(clippy::too_many_arguments)]
fn synthesize_mult_mod<Fr: PrimeField, CS: ConstraintSystem<Fr>>(
cs: &mut CS,
a_val: &Integer,
b_val: &Integer,
m_val: &Integer,
q_val: &Integer,
r_val: &Integer,
limb_width: usize,
n_limbs: usize,
) -> Result<(), SynthesisError> {
let a_num = Num::alloc(cs.namespace(|| "alloc a num"), || {
Ok(nat_to_f(a_val).unwrap())
})?;
let m = BigNat::alloc_from_nat(
cs.namespace(|| "m"),
|| Ok(m_val.clone()),
limb_width,
n_limbs,
)?;
let _ = m.inputize(cs.namespace(|| "modulus m"))?;
let a = BigNat::from_num(
cs.namespace(|| "allocate a_limbs"),
a_num,
limb_width,
n_limbs,
)?;
let b = BigNat::alloc_from_nat(
cs.namespace(|| "b"),
|| Ok(b_val.clone()),
limb_width,
n_limbs,
)?;
let q = BigNat::alloc_from_nat(
cs.namespace(|| "q"),
|| Ok(q_val.clone()),
limb_width,
n_limbs,
)?;
let r = BigNat::alloc_from_nat(
cs.namespace(|| "r"),
|| Ok(r_val.clone()),
limb_width,
n_limbs,
)?;
let (qa, ra) = a.mult_mod(cs.namespace(|| "prod"), &b, &m)?;
qa.equal(cs.namespace(|| "qcheck"), &q)?;
ra.equal(cs.namespace(|| "rcheck"), &r)?;
Ok(())
}
fn synthesize_add<Fr: PrimeField, CS: ConstraintSystem<Fr>>(
cs: &mut CS,
a_val: &Integer,
b_val: &Integer,
c_val: &Integer,
limb_width: usize,
n_limbs: usize,
) -> Result<(), SynthesisError> {
let a = BigNat::alloc_from_nat(
cs.namespace(|| "a"),
|| Ok(a_val.clone()),
limb_width,
n_limbs,
)?;
let _ = a.inputize(cs.namespace(|| "input a"))?;
let b = BigNat::alloc_from_nat(
cs.namespace(|| "b"),
|| Ok(b_val.clone()),
limb_width,
n_limbs,
)?;
let _ = b.inputize(cs.namespace(|| "input b"))?;
let c = BigNat::alloc_from_nat(
cs.namespace(|| "c"),
|| Ok(c_val.clone()),
limb_width,
n_limbs,
)?;
let ca = a.add::<CS>(&b)?;
ca.equal(cs.namespace(|| "ccheck"), &c)?;
Ok(())
}
fn synthesize_add_mod<Fr: PrimeField, CS: ConstraintSystem<Fr>>(
cs: &mut CS,
a_val: &Integer,
b_val: &Integer,
c_val: &Integer,
m_val: &Integer,
limb_width: usize,
n_limbs: usize,
) -> Result<(), SynthesisError> {
let a = BigNat::alloc_from_nat(
cs.namespace(|| "a"),
|| Ok(a_val.clone()),
limb_width,
n_limbs,
)?;
let _ = a.inputize(cs.namespace(|| "input a"))?;
let b = BigNat::alloc_from_nat(
cs.namespace(|| "b"),
|| Ok(b_val.clone()),
limb_width,
n_limbs,
)?;
let _ = b.inputize(cs.namespace(|| "input b"))?;
let c = BigNat::alloc_from_nat(
cs.namespace(|| "c"),
|| Ok(c_val.clone()),
limb_width,
n_limbs,
)?;
let m = BigNat::alloc_from_nat(
cs.namespace(|| "m"),
|| Ok(m_val.clone()),
limb_width,
n_limbs,
)?;
let d = a.add::<CS>(&b)?;
let ca = d.red_mod(cs.namespace(|| "reduce"), &m)?;
ca.equal(cs.namespace(|| "ccheck"), &c)?;
Ok(())
}
#[test]
fn test_mult_mod() {
type G = pasta_curves::pallas::Point;
// Set the inputs
let a_val = Integer::from_str_radix(
"11572336752428856981970994795408771577024165681374400871001196932361466228192",
10,
)
.unwrap();
let b_val = Integer::from_str_radix(
"87673389408848523602668121701204553693362841135953267897017930941776218798802",
10,
)
.unwrap();
let m_val = Integer::from_str_radix(
"40000000000000000000000000000000224698fc094cf91b992d30ed00000001",
16,
)
.unwrap();
let q_val = Integer::from_str_radix(
"35048542371029440058224000662033175648615707461806414787901284501179083518342",
10,
)
.unwrap();
let r_val = Integer::from_str_radix(
"26362617993085418618858432307761590013874563896298265114483698919121453084730",
10,
)
.unwrap();
// First create the shape
let mut cs: ShapeCS<G> = ShapeCS::new();
let _ = synthesize_mult_mod(&mut cs, &a_val, &b_val, &m_val, &q_val, &r_val, 32, 8);
let shape = cs.r1cs_shape();
let gens = cs.r1cs_gens();
println!("Mult mod constraint no: {}", cs.num_constraints());
// Now get the assignment
let mut cs: SatisfyingAssignment<G> = SatisfyingAssignment::new();
let _ = synthesize_mult_mod(&mut cs, &a_val, &b_val, &m_val, &q_val, &r_val, 32, 8);
let (inst, witness) = cs.r1cs_instance_and_witness(&shape, &gens).unwrap();
// Make sure that this is satisfiable
assert!(shape.is_sat(&gens, &inst, &witness).is_ok());
}
#[test]
fn test_add() {
type G = pasta_curves::pallas::Point;
// Set the inputs
let a_val = Integer::from_str_radix(
"11572336752428856981970994795408771577024165681374400871001196932361466228192",
10,
)
.unwrap();
let b_val = Integer::from_str_radix("1", 10).unwrap();
let c_val = Integer::from_str_radix(
"11572336752428856981970994795408771577024165681374400871001196932361466228193",
10,
)
.unwrap();
// First create the shape
let mut cs: ShapeCS<G> = ShapeCS::new();
let _ = synthesize_add(&mut cs, &a_val, &b_val, &c_val, 32, 8);
let shape = cs.r1cs_shape();
let gens = cs.r1cs_gens();
println!("Add mod constraint no: {}", cs.num_constraints());
// Now get the assignment
let mut cs: SatisfyingAssignment<G> = SatisfyingAssignment::new();
let _ = synthesize_add(&mut cs, &a_val, &b_val, &c_val, 32, 8);
let (inst, witness) = cs.r1cs_instance_and_witness(&shape, &gens).unwrap();
// Make sure that this is satisfiable
assert!(shape.is_sat(&gens, &inst, &witness).is_ok());
}
#[test]
fn test_add_mod() {
type G = pasta_curves::pallas::Point;
// Set the inputs
let a_val = Integer::from_str_radix(
"11572336752428856981970994795408771577024165681374400871001196932361466228192",
10,
)
.unwrap();
let b_val = Integer::from_str_radix("1", 10).unwrap();
let c_val = Integer::from_str_radix(
"11572336752428856981970994795408771577024165681374400871001196932361466228193",
10,
)
.unwrap();
let m_val = Integer::from_str_radix(
"40000000000000000000000000000000224698fc094cf91b992d30ed00000001",
16,
)
.unwrap();
// First create the shape
let mut cs: ShapeCS<G> = ShapeCS::new();
let _ = synthesize_add_mod(&mut cs, &a_val, &b_val, &c_val, &m_val, 32, 8);
let shape = cs.r1cs_shape();
let gens = cs.r1cs_gens();
println!("Add mod constraint no: {}", cs.num_constraints());
// Now get the assignment
let mut cs: SatisfyingAssignment<G> = SatisfyingAssignment::new();
let _ = synthesize_add_mod(&mut cs, &a_val, &b_val, &c_val, &m_val, 32, 8);
let (inst, witness) = cs.r1cs_instance_and_witness(&shape, &gens).unwrap();
// Make sure that this is satisfiable
assert!(shape.is_sat(&gens, &inst, &witness).is_ok());
}
#[test]
fn test_equal() {
type G = pasta_curves::pallas::Point;
// Set the inputs
let a_val = Integer::from_str_radix("1157233675242885698197099479540877", 10).unwrap();
// First create the shape
let mut cs: ShapeCS<G> = ShapeCS::new();
let _ = synthesize_is_equal(&mut cs, &a_val, 32, 8);
let shape = cs.r1cs_shape();
let gens = cs.r1cs_gens();
println!("Equal constraint no: {}", cs.num_constraints());
// Now get the assignment
let mut cs: SatisfyingAssignment<G> = SatisfyingAssignment::new();
let _ = synthesize_is_equal(&mut cs, &a_val, 32, 8);
let (inst, witness) = cs.r1cs_instance_and_witness(&shape, &gens).unwrap();
// Make sure that this is satisfiable
assert!(shape.is_sat(&gens, &inst, &witness).is_ok());
}
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