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@ -1,4 +1,4 @@ |
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use ark_ff::{BitIteratorBE, Field, PrimeField};
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use ark_ff::{BitIteratorBE, Field, FpParameters, PrimeField};
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use crate::{fields::fp::FpVar, prelude::*, Assignment, ToConstraintFieldGadget, Vec};
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use ark_relations::r1cs::{
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@ -608,6 +608,56 @@ impl Boolean { |
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}
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}
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/// Convert a little-endian bitwise representation of a field element to `FpVar<F>`
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#[tracing::instrument(target = "r1cs", skip(bits))]
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pub fn le_bits_to_fp_var(bits: &[Self]) -> Result<FpVar<F>, SynthesisError>
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where
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F: PrimeField,
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{
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// Compute the value of the `FpVar` variable via double-and-add.
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let mut value = None;
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let cs = bits.cs();
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// Assign a value only when `cs` is in setup mode, or if we are constructing
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// a constant.
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let should_construct_value = (!cs.is_in_setup_mode()) || bits.is_constant();
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if should_construct_value {
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let bits = bits.iter().map(|b| b.value().unwrap()).collect::<Vec<_>>();
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let bytes = bits
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.chunks(8)
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.map(|c| {
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let mut value = 0u8;
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for (i, &bit) in c.iter().enumerate() {
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value += (bit as u8) << i;
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}
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value
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})
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.collect::<Vec<_>>();
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value = Some(F::from_le_bytes_mod_order(&bytes));
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}
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if bits.is_constant() {
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Ok(FpVar::constant(value.unwrap()))
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} else {
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let mut power = F::one();
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// Compute a linear combination for the new field variable, again
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// via double and add.
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let mut combined_lc = LinearCombination::zero();
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bits.iter().for_each(|b| {
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combined_lc = &combined_lc + (power, b.lc());
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power.double_in_place();
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});
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// Allocate the new variable as a SymbolicLc
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let variable = cs.new_lc(combined_lc)?;
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// If the number of bits is less than the size of the field,
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// then we do not need to enforce that the element is less than
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// the modulus.
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if bits.len() >= F::Params::MODULUS_BITS as usize {
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Self::enforce_in_field_le(bits)?;
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}
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Ok(crate::fields::fp::AllocatedFp::new(value, variable, cs.clone()).into())
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}
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}
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/// Enforces that `bits`, when interpreted as a integer, is less than
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/// `F::characteristic()`, That is, interpret bits as a little-endian
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/// integer, and enforce that this integer is "in the field Z_p", where
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@ -1737,4 +1787,37 @@ mod test { |
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}
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Ok(())
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}
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#[test]
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fn test_bits_to_fp() -> Result<(), SynthesisError> {
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use AllocationMode::*;
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let rng = &mut ark_std::test_rng();
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let cs = ConstraintSystem::<Fr>::new_ref();
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let modes = [Input, Witness, Constant];
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for &mode in modes.iter() {
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for _ in 0..1000 {
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let f = Fr::rand(rng);
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let bits = BitIteratorLE::new(f.into_repr()).collect::<Vec<_>>();
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let bits: Vec<_> =
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AllocVar::new_variable(cs.clone(), || Ok(bits.as_slice()), mode)?;
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let f = AllocVar::new_variable(cs.clone(), || Ok(f), mode)?;
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let claimed_f = Boolean::le_bits_to_fp_var(&bits)?;
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claimed_f.enforce_equal(&f)?;
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}
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for _ in 0..1000 {
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let f = Fr::from(u64::rand(rng));
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let bits = BitIteratorLE::new(f.into_repr()).collect::<Vec<_>>();
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let bits: Vec<_> =
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AllocVar::new_variable(cs.clone(), || Ok(bits.as_slice()), mode)?;
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let f = AllocVar::new_variable(cs.clone(), || Ok(f), mode)?;
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let claimed_f = Boolean::le_bits_to_fp_var(&bits)?;
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claimed_f.enforce_equal(&f)?;
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}
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assert!(cs.is_satisfied().unwrap());
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}
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Ok(())
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}
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}
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Pratyush Mishra
3 years ago
GitHub