use crate::field::extension_field::target::ExtensionTarget; use crate::field::extension_field::Extendable; use crate::gates::random_access::RandomAccessGate; use crate::iop::target::Target; use crate::plonk::circuit_builder::CircuitBuilder; impl, const D: usize> CircuitBuilder { /// Checks that a `Target` matches a vector at a non-deterministic index. /// Note: `index` is not range-checked. pub fn random_access( &mut self, access_index: Target, claimed_element: ExtensionTarget, v: Vec>, ) { let gate = RandomAccessGate::new(v.len()); let gate_index = self.add_gate(gate.clone(), vec![]); v.iter().enumerate().for_each(|(i, &val)| { self.route_extension( val, ExtensionTarget::from_range(gate_index, gate.wires_list_item(i)), ); }); self.route( access_index, Target::wire(gate_index, gate.wires_access_index()), ); self.route_extension( claimed_element, ExtensionTarget::from_range(gate_index, gate.wires_claimed_element()), ); } } #[cfg(test)] mod tests { use anyhow::Result; use super::*; use crate::field::crandall_field::CrandallField; use crate::field::extension_field::quartic::QuarticCrandallField; use crate::field::field_types::Field; use crate::iop::witness::PartialWitness; use crate::plonk::circuit_data::CircuitConfig; use crate::plonk::verifier::verify; fn test_random_access_given_len(len_log: usize) -> Result<()> { type F = CrandallField; type FF = QuarticCrandallField; let len = 1 << len_log; let config = CircuitConfig::large_config(); let mut builder = CircuitBuilder::::new(config); let vec = FF::rand_vec(len); let v: Vec<_> = vec.iter().map(|x| builder.constant_extension(*x)).collect(); for i in 0..len { let it = builder.constant(F::from_canonical_usize(i)); let elem = builder.constant_extension(vec[i]); builder.random_access(it, elem, v.clone()); } let data = builder.build(); let proof = data.prove(PartialWitness::new())?; verify(proof, &data.verifier_only, &data.common) } #[test] fn test_random_access() -> Result<()> { for len_log in 1..3 { test_random_access_given_len(len_log)?; } Ok(()) } }