alxiong/conversion.rs

## conversion.rs
use ark_bls12_381::Fr as BlsScalar;
use ark_ff::{FpParameters, PrimeField};

// The number of bits that can be reliably stored for BlsScalar. (Should equal
// SELF::MODULUS_BITS - 1)
const BLS_SCALAR_BIT_CAPACITY: u32 = <BlsScalar as PrimeField>::Params::CAPACITY;
// 31 bytes a chunk
const BLS_SCALAR_BYTE_CAPACITY: usize = BLS_SCALAR_BIT_CAPACITY as usize / 8;

/// Two-way, deterministic, infalliable conversion between arbitrary bytes (of
/// unknown length and potentially non-canonical) and field elements.
/// This function converts bytes to vector of BlsScalar.
pub(crate) fn to_bls_scalars(bytes: &[u8]) -> Vec<BlsScalar> {
    // pad with "100..0" until the overall length equals the next multiple of
    // BLS_SCALAR_BYTE_CAPACITY, note that always append "1" for chunk in
    let mut padded_bytes = bytes.to_owned();
    padded_bytes.push(1u8);
    padded_bytes.resize(
        next_multiple(padded_bytes.len(), BLS_SCALAR_BYTE_CAPACITY),
        0u8,
    );
    assert!(padded_bytes.len() % BLS_SCALAR_BYTE_CAPACITY == 0);

    let mut result = vec![];
    for chunk in padded_bytes.chunks(BLS_SCALAR_BYTE_CAPACITY) {
        result.push(BlsScalar::from_le_bytes_mod_order(chunk));
    }
    result
}

/// Two-way, deterministic, infalliable conversion between arbitrary bytes (of
/// unknown length and potentially non-canonical) and field elements.
/// This function converts vector of BlsScalar to bytes.
pub(crate) fn from_bls_scalars(scalars: &[BlsScalar]) -> Vec<u8> {
    let mut padded_bytes = vec![];
    for scalar in scalars.iter() {
        let mut scalar_bytes: Vec<u8> = scalar.into_repr().to_bytes_le();
        scalar_bytes.truncate(BLS_SCALAR_BYTE_CAPACITY);
        padded_bytes.extend_from_slice(&scalar_bytes);
    }

    // remove padding
    while *padded_bytes.last().unwrap() == 0u8 {
        padded_bytes.pop();
    }
    assert_eq!(*padded_bytes.last().unwrap(), 1u8);
    padded_bytes.pop();
    padded_bytes
}

// returns the smallest multiple of `multiple` no smaller than `current`
fn next_multiple(current: usize, multiple: usize) -> usize {
    if current % multiple == 0 {
        current
    } else {
        current + multiple - current % multiple
    }
}

#[test]
fn test_from_to_bls_scalars() {
    use ark_std::rand::Rng;

    let mut rng = ark_std::test_rng();
    let msg1 = b"The quick brown fox jumps over the lazy dog".to_vec();
    let mut msg2 = vec![0u8; 31];
    let mut msg3 = vec![0u8; 32];
    let mut msg4 = vec![0u8; 500];
    rng.fill(&mut msg2[..]);
    rng.fill(&mut msg3[..]);
    rng.fill(&mut msg4[..]);
    assert_eq!(msg1, from_bls_scalars(&to_bls_scalars(&msg1)));
    assert_eq!(msg2, from_bls_scalars(&to_bls_scalars(&msg2)));
    assert_eq!(msg3, from_bls_scalars(&to_bls_scalars(&msg3)));
    assert_eq!(msg4, from_bls_scalars(&to_bls_scalars(&msg4)));
}
	use ark_bls12_381::Fr as BlsScalar;
	use ark_ff::{FpParameters, PrimeField};

	// The number of bits that can be reliably stored for BlsScalar. (Should equal
	// SELF::MODULUS_BITS - 1)
	const BLS_SCALAR_BIT_CAPACITY: u32 = <BlsScalar as PrimeField>::Params::CAPACITY;
	// 31 bytes a chunk
	const BLS_SCALAR_BYTE_CAPACITY: usize = BLS_SCALAR_BIT_CAPACITY as usize / 8;

	/// Two-way, deterministic, infalliable conversion between arbitrary bytes (of
	/// unknown length and potentially non-canonical) and field elements.
	/// This function converts bytes to vector of BlsScalar.
	pub(crate) fn to_bls_scalars(bytes: &[u8]) -> Vec<BlsScalar> {
	// pad with "100..0" until the overall length equals the next multiple of
	// BLS_SCALAR_BYTE_CAPACITY, note that always append "1" for chunk in
	let mut padded_bytes = bytes.to_owned();
	padded_bytes.push(1u8);
	padded_bytes.resize(
	next_multiple(padded_bytes.len(), BLS_SCALAR_BYTE_CAPACITY),
	0u8,
	);
	assert!(padded_bytes.len() % BLS_SCALAR_BYTE_CAPACITY == 0);

	let mut result = vec![];
	for chunk in padded_bytes.chunks(BLS_SCALAR_BYTE_CAPACITY) {
	result.push(BlsScalar::from_le_bytes_mod_order(chunk));
	}
	result
	}

	/// Two-way, deterministic, infalliable conversion between arbitrary bytes (of
	/// unknown length and potentially non-canonical) and field elements.
	/// This function converts vector of BlsScalar to bytes.
	pub(crate) fn from_bls_scalars(scalars: &[BlsScalar]) -> Vec<u8> {
	let mut padded_bytes = vec![];
	for scalar in scalars.iter() {
	let mut scalar_bytes: Vec<u8> = scalar.into_repr().to_bytes_le();
	scalar_bytes.truncate(BLS_SCALAR_BYTE_CAPACITY);
	padded_bytes.extend_from_slice(&scalar_bytes);
	}

	// remove padding
	while *padded_bytes.last().unwrap() == 0u8 {
	padded_bytes.pop();
	}
	assert_eq!(*padded_bytes.last().unwrap(), 1u8);
	padded_bytes.pop();
	padded_bytes
	}

	// returns the smallest multiple of `multiple` no smaller than `current`
	fn next_multiple(current: usize, multiple: usize) -> usize {
	if current % multiple == 0 {
	current
	} else {
	current + multiple - current % multiple
	}
	}

	#[test]
	fn test_from_to_bls_scalars() {
	use ark_std::rand::Rng;

	let mut rng = ark_std::test_rng();
	let msg1 = b"The quick brown fox jumps over the lazy dog".to_vec();
	let mut msg2 = vec![0u8; 31];
	let mut msg3 = vec![0u8; 32];
	let mut msg4 = vec![0u8; 500];
	rng.fill(&mut msg2[..]);
	rng.fill(&mut msg3[..]);
	rng.fill(&mut msg4[..]);
	assert_eq!(msg1, from_bls_scalars(&to_bls_scalars(&msg1)));
	assert_eq!(msg2, from_bls_scalars(&to_bls_scalars(&msg2)));
	assert_eq!(msg3, from_bls_scalars(&to_bls_scalars(&msg3)));
	assert_eq!(msg4, from_bls_scalars(&to_bls_scalars(&msg4)));
	}