mirror of
https://github.com/Qortal/pirate-librustzcash.git
synced 2025-02-07 14:54:10 +00:00
Optimize into_bits_strict.
This commit is contained in:
Sean Bowe
parent
97585a30ad
commit
69abd0391f
@ -34,6 +34,44 @@ impl AllocatedBit {
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self.variable
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}
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/// Allocate a variable in the constraint system which can only be a
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/// boolean value. Further, constrain that the boolean is false
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/// unless the condition is false.
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pub fn alloc_conditionally<E, CS>(
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mut cs: CS,
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value: Option<bool>,
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must_be_false: &AllocatedBit
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) -> Result<Self, SynthesisError>
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where E: Engine,
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CS: ConstraintSystem<E>
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{
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let var = cs.alloc(|| "boolean", || {
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if *value.get()? {
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Ok(E::Fr::one())
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} else {
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Ok(E::Fr::zero())
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}
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})?;
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// Constrain: (1 - must_be_false - a) * a = 0
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// if must_be_false is true, the equation
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// reduces to -a * a = 0, which implies a = 0.
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// if must_be_false is false, the equation
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// reduces to (1 - a) * a = 0, which is a
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// traditional boolean constraint.
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cs.enforce(
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|| "boolean constraint",
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|lc| lc + CS::one() - must_be_false.variable - var,
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|lc| lc + var,
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|lc| lc
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);
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Ok(AllocatedBit {
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variable: var,
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value: value
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})
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}
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/// Allocate a variable in the constraint system which can only be a
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/// boolean value.
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pub fn alloc<E, CS>(
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@ -392,7 +392,7 @@ fn test_input_circuit_with_bls12_381() {
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assert!(cs.is_satisfied());
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assert_eq!(cs.num_constraints(), 99816);
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assert_eq!(cs.num_constraints(), 97376);
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}
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// use bellman::groth16::*;
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@ -737,7 +737,7 @@ fn test_output_circuit_with_bls12_381() {
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assert!(cs.is_satisfied());
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assert_eq!(cs.num_constraints(), 8315);
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assert_eq!(cs.num_constraints(), 7827);
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}
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// use bellman::groth16::*;
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@ -2,6 +2,8 @@ use pairing::{
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Engine,
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Field,
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PrimeField,
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PrimeFieldRepr,
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BitIterator
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};
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use bellman::{
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@ -18,6 +20,7 @@ use super::{
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use super::boolean::{
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self,
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Boolean,
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AllocatedBit
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};
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pub struct AllocatedNum<E: Engine> {
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@ -63,10 +66,126 @@ impl<E: Engine> AllocatedNum<E> {
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) -> Result<Vec<Boolean>, SynthesisError>
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where CS: ConstraintSystem<E>
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{
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let bits = self.into_bits(&mut cs)?;
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Boolean::enforce_in_field::<_, _, E::Fr>(&mut cs, &bits)?;
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pub fn kary_and<E, CS>(
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mut cs: CS,
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v: &[AllocatedBit]
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) -> Result<AllocatedBit, SynthesisError>
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where E: Engine,
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CS: ConstraintSystem<E>
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{
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assert!(v.len() > 0);
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Ok(bits)
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// Let's keep this simple for now and just AND them all
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// manually
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let mut cur = None;
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for (i, v) in v.iter().enumerate() {
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if cur.is_none() {
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cur = Some(v.clone());
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} else {
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cur = Some(AllocatedBit::and(
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cs.namespace(|| format!("and {}", i)),
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cur.as_ref().unwrap(),
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v
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)?);
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}
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}
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Ok(cur.expect("v.len() > 0"))
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}
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// We want to ensure that the bit representation of a is
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// less than or equal to r - 1.
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let mut a = self.value.map(|e| BitIterator::new(e.into_repr()));
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let mut b = E::Fr::char();
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b.sub_noborrow(&1.into());
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let mut result = vec![];
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// Runs of ones in r
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let mut last_run = None;
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let mut current_run = vec![];
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let mut found_one = false;
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let mut i = 0;
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for b in BitIterator::new(b) {
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let a_bit = a.as_mut().map(|e| e.next().unwrap());
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// Skip over unset bits at the beginning
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found_one |= b;
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if !found_one {
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// a_bit should also be false
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a_bit.map(|e| assert!(!e));
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continue;
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}
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if b {
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// This is part of a run of ones. Let's just
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// allocate the boolean with the expected value.
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let a_bit = AllocatedBit::alloc(
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cs.namespace(|| format!("bit {}", i)),
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a_bit
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)?;
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// ... and add it to the current run of ones.
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current_run.push(a_bit.clone());
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result.push(a_bit);
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} else {
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if current_run.len() > 0 {
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// This is the start of a run of zeros, but we need
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// to k-ary AND against `last_run` first.
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if last_run.is_some() {
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current_run.push(last_run.clone().unwrap());
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}
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last_run = Some(kary_and(
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cs.namespace(|| format!("run ending at {}", i)),
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¤t_run
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)?);
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current_run.truncate(0);
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}
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// If `last_run` is true, `a` must be false, or it would
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// not be in the field.
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//
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// If `last_run` is false, `a` can be true or false.
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let a_bit = AllocatedBit::alloc_conditionally(
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cs.namespace(|| format!("bit {}", i)),
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a_bit,
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&last_run.as_ref().expect("char always starts with a one")
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)?;
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result.push(a_bit);
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}
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i += 1;
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}
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// char is prime, so we'll always end on
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// a run of zeros.
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assert_eq!(current_run.len(), 0);
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// Now, we have `result` in big-endian order.
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// However, now we have to unpack self!
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let mut lc = LinearCombination::zero();
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let mut coeff = E::Fr::one();
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for bit in result.iter().rev() {
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lc = lc + (coeff, bit.get_variable());
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coeff.double();
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}
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lc = lc - self.variable;
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cs.enforce(
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|| "unpacking constraint",
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|lc| lc,
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|lc| lc,
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|_| lc
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);
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Ok(result.into_iter().map(|b| Boolean::from(b)).collect())
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}
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pub fn into_bits<CS>(
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@ -315,7 +434,6 @@ mod test {
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use pairing::{Field, PrimeField, BitIterator};
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use ::circuit::test::*;
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use super::{AllocatedNum, Boolean};
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use super::super::boolean::AllocatedBit;
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#[test]
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fn test_allocated_num() {
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@ -422,31 +540,25 @@ mod test {
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// make the bit representation the characteristic
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cs.set("bit 254/boolean", Fr::one());
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// this makes the unpacking constraint fail
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assert_eq!(cs.which_is_unsatisfied().unwrap(), "unpacking constraint");
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// fix it by making the number zero (congruent to the characteristic)
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cs.set("num", Fr::zero());
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// and constraint is disturbed during enforce in field check
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assert_eq!(cs.which_is_unsatisfied().unwrap(), "nand 121/AND 0/and constraint");
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cs.set("nand 121/AND 0/and result", Fr::one());
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// now the nand should fail (enforce in field is working)
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assert_eq!(cs.which_is_unsatisfied().unwrap(), "nand 121/enforce nand");
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// this makes the conditional boolean constraint fail
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assert_eq!(cs.which_is_unsatisfied().unwrap(), "bit 254/boolean constraint");
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}
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#[test]
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fn test_into_bits() {
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let mut rng = XorShiftRng::from_seed([0x3dbe6259, 0x8d313d76, 0x3237db17, 0xe5bc0654]);
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for _ in 0..100 {
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for i in 0..200 {
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let r = Fr::rand(&mut rng);
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let mut cs = TestConstraintSystem::<Bls12>::new();
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let n = AllocatedNum::alloc(&mut cs, || Ok(r)).unwrap();
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let bits = n.into_bits(&mut cs).unwrap();
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let bits = if i % 2 == 0 {
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n.into_bits(&mut cs).unwrap()
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} else {
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n.into_bits_strict(&mut cs).unwrap()
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};
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assert!(cs.is_satisfied());
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