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pub use crate::crh::pedersen_parameters::PedersenSize;
use crate::{
crh::{PedersenCRH, PedersenCRHParameters},
traits::CRH,
};
use snarkvm_curves::traits::Group;
use snarkvm_fields::{ConstraintFieldError, Field, ToConstraintField};
use snarkvm_utilities::bytes::{FromBytes, ToBytes};
use rand::Rng;
use std::io::{Read, Result as IoResult, Write};
#[derive(Debug, Clone, PartialEq, Eq, PartialOrd, Ord)]
pub struct PedersenCommitmentParameters<G: Group, S: PedersenSize> {
pub bases: Vec<Vec<G>>,
pub random_base: Vec<G>,
pub crh: PedersenCRH<G, S>,
}
impl<G: Group, S: PedersenSize> PedersenCommitmentParameters<G, S> {
pub fn setup<R: Rng>(rng: &mut R) -> Self {
let bases = (0..S::NUM_WINDOWS)
.map(|_| Self::base(S::WINDOW_SIZE, rng))
.collect::<Vec<Vec<G>>>();
let random_base = Self::base(S::WINDOW_SIZE, rng);
let crh_parameters = PedersenCRHParameters::from(bases.clone());
let crh = PedersenCRH::from(crh_parameters);
Self {
bases,
random_base,
crh,
}
}
fn base<R: Rng>(num_powers: usize, rng: &mut R) -> Vec<G> {
let mut powers = Vec::with_capacity(num_powers);
let mut base = G::rand(rng);
for _ in 0..num_powers {
powers.push(base);
base.double_in_place();
}
powers
}
}
impl<F: Field, G: Group + ToConstraintField<F>, S: PedersenSize> ToConstraintField<F>
for PedersenCommitmentParameters<G, S>
{
#[inline]
fn to_field_elements(&self) -> Result<Vec<F>, ConstraintFieldError> {
Ok(Vec::new())
}
}
impl<G: Group, S: PedersenSize> ToBytes for PedersenCommitmentParameters<G, S> {
fn write<W: Write>(&self, mut writer: W) -> IoResult<()> {
(self.bases.len() as u32).write(&mut writer)?;
for base in &self.bases {
(base.len() as u32).write(&mut writer)?;
for g in base {
g.write(&mut writer)?;
}
}
(self.random_base.len() as u32).write(&mut writer)?;
for g in &self.random_base {
g.write(&mut writer)?;
}
self.crh.parameters().write(&mut writer)?;
Ok(())
}
}
impl<G: Group, S: PedersenSize> FromBytes for PedersenCommitmentParameters<G, S> {
#[inline]
fn read<R: Read>(mut reader: R) -> IoResult<Self> {
let num_bases: u32 = FromBytes::read(&mut reader)?;
let mut bases = Vec::with_capacity(num_bases as usize);
for _ in 0..num_bases {
let base_len: u32 = FromBytes::read(&mut reader)?;
let mut base = Vec::with_capacity(base_len as usize);
for _ in 0..base_len {
let g: G = FromBytes::read(&mut reader)?;
base.push(g);
}
bases.push(base);
}
let random_base_len: u32 = FromBytes::read(&mut reader)?;
let mut random_base = Vec::with_capacity(random_base_len as usize);
for _ in 0..random_base_len {
let g: G = FromBytes::read(&mut reader)?;
random_base.push(g);
}
let crh_parameters: <PedersenCRH<G, S> as CRH>::Parameters = FromBytes::read(&mut reader)?;
let crh = PedersenCRH::<G, S>::from(crh_parameters);
Ok(Self {
bases,
random_base,
crh,
})
}
}