test: add relevant tests and asserts for generate_constraints

6 months ago · 9a19e3c557
1 changed files with 167 additions and 10 deletions
--- a/src/circom/circuit.rs
+++ b/src/circom/circuit.rs
@ -11,7 +11,7 @@ use super::R1CS;

 /// `self.public_inputs_indexes` stores already allocated public variables. We assume that:
 ///      1. `self.public_inputs_indexes` is sorted in the same order as circom's r1cs public inputs
 ///      2. the first element of `self.public_inputs_indexes` is the first element *after* the last non-allocated yet public input
 ///      2. the first element of `self.public_inputs_indexes` is the first element *after* the last non yet allocated public input
 /// example:
 ///      if circom public values are [1, out1, out2, in1, in2] (where out and in denote public signals only)
 ///      and `self.public_inputs_indexes` is [Variable(2), Variable(3)]
@ -45,15 +45,15 @@ impl ConstraintSynthesizer for CircomCircuit {
        // Since our cs might already have allocated constraints,
        // We store a mapping between circom's defined indexes and the newly obtained cs indexes
        let mut circom_index_to_cs_index = HashMap::new();
        let n_non_allocated_inputs = self.r1cs.num_inputs - self.public_inputs_indexes.len();

        // allocate non-allocated inputs and update mapping
        for circom_public_input_index in 0..n_non_allocated_inputs {
            if circom_public_input_index == 0 {
                circom_index_to_cs_index.insert(circom_public_input_index, Variable::One);
                continue;
            }
        // constant 1 at idx 0 is already allocated by arkworks
        circom_index_to_cs_index.insert(0, Variable::One);

        // length pub inputs - constant 1 (already allocated by arkworks) - length already allocated pub inputs
        let n_non_allocated_inputs = self.r1cs.num_inputs - 1 - self.public_inputs_indexes.len();

        // allocate non-allocated inputs and update mapping
        for circom_public_input_index in 1..=n_non_allocated_inputs {
            let variable = match self.allocate_inputs_as_witnesses {
                true => {
                    let witness_var = Variable::Witness(cs.num_witness_variables());
@ -85,14 +85,26 @@ impl ConstraintSynthesizer for CircomCircuit {
            circom_index_to_cs_index.insert(circom_public_input_index, variable);
        }

        for circom_public_input_index in n_non_allocated_inputs..self.r1cs.num_inputs {
            let access_input_index = circom_public_input_index - n_non_allocated_inputs;
        // update mapping with already allocated public inputs
        for circom_public_input_index in (n_non_allocated_inputs + 1)..self.r1cs.num_inputs {
            let access_input_index = circom_public_input_index - n_non_allocated_inputs - 1;
            circom_index_to_cs_index.insert(
                circom_public_input_index,
                self.public_inputs_indexes[access_input_index],
            );
        }

        assert_eq!(
            circom_index_to_cs_index.get(&0),
            Some(&Variable::One),
            "circom index 0 should be allocated as Variable::One"
        );
        assert_eq!(
            circom_index_to_cs_index.len(),
            self.r1cs.num_inputs,
            "Did not map all inputs"
        );

        for i in 0..self.r1cs.num_aux {
            let circom_defined_r1cs_index = i + self.r1cs.num_inputs;
            circom_index_to_cs_index.insert(
@ -149,6 +161,7 @@ mod tests {
    use crate::{CircomBuilder, CircomConfig};
    use ark_bn254::Fr;
    use ark_relations::r1cs::ConstraintSystem;
    use num_bigint::BigInt;

    #[test]
    fn satisfied() {
@ -166,4 +179,148 @@ mod tests {
        circom.generate_constraints(cs.clone()).unwrap();
        assert!(cs.is_satisfied().unwrap());
    }

    #[test]
    fn no_public_inputs_allocated() {
        let mut cfg = CircomConfig::<Fr>::new(
            "./test-vectors/mycircuit2.wasm",
            "./test-vectors/mycircuit2.r1cs",
        )
        .unwrap();

        let inputs = vec![
            ("a".to_string(), vec![BigInt::from(3)]),
            ("b".to_string(), vec![BigInt::from(3)]),
            ("c".to_string(), vec![BigInt::from(3)]),
        ];

        let witness = cfg.wtns.calculate_witness_element(inputs, true).unwrap();

        // satisfy with inputs as instance variables
        let mut circom = CircomCircuit {
            r1cs: cfg.r1cs.clone(),
            witness: Some(witness.clone()),
            public_inputs_indexes: vec![],
            allocate_inputs_as_witnesses: false,
        };

        let cs = ConstraintSystem::<Fr>::new_ref();
        circom.clone().generate_constraints(cs.clone()).unwrap();
        assert_eq!(cs.num_witness_variables(), 2);
        assert_eq!(cs.num_instance_variables(), 5);
        assert!(cs.is_satisfied().unwrap());

        // satisfy with inputs as witness variables
        let cs = ConstraintSystem::<Fr>::new_ref();
        circom.allocate_inputs_as_witnesses = true;
        circom.generate_constraints(cs.clone()).unwrap();

        assert_eq!(cs.num_witness_variables(), 6);
        assert_eq!(cs.num_instance_variables(), 1);
        assert!(cs.is_satisfied().unwrap());
    }

    #[test]
    fn all_public_inputs_allocated() {
        let mut cfg = CircomConfig::<Fr>::new(
            "./test-vectors/mycircuit2.wasm",
            "./test-vectors/mycircuit2.r1cs",
        )
        .unwrap();

        let inputs = vec![
            ("a".to_string(), vec![BigInt::from(3)]),
            ("b".to_string(), vec![BigInt::from(3)]),
            ("c".to_string(), vec![BigInt::from(3)]),
        ];

        let witness = cfg.wtns.calculate_witness_element(inputs, true).unwrap();

        // satisfy with inputs as instance variables
        let mut circom = CircomCircuit {
            r1cs: cfg.r1cs.clone(),
            witness: Some(witness.clone()),
            public_inputs_indexes: vec![],
            allocate_inputs_as_witnesses: false,
        };

        let cs = ConstraintSystem::<Fr>::new_ref();

        // allocate all public input variables (except 1) as instance variables and push their indexes
        for i in 1..cfg.r1cs.num_inputs {
            circom
                .public_inputs_indexes
                .push(Variable::Instance(cs.num_instance_variables()));
            cs.new_input_variable(|| Ok(witness[i])).unwrap();
        }

        circom.clone().generate_constraints(cs.clone()).unwrap();

        assert_eq!(cs.num_witness_variables(), 2);
        assert_eq!(cs.num_instance_variables(), 5);
        assert!(cs.is_satisfied().unwrap());
    }

    #[test]
    fn some_public_inputs_allocated() {
        let mut cfg = CircomConfig::<Fr>::new(
            "./test-vectors/mycircuit2.wasm",
            "./test-vectors/mycircuit2.r1cs",
        )
        .unwrap();

        let inputs = vec![
            ("a".to_string(), vec![BigInt::from(3)]),
            ("b".to_string(), vec![BigInt::from(3)]),
            ("c".to_string(), vec![BigInt::from(3)]),
        ];

        let witness = cfg.wtns.calculate_witness_element(inputs, true).unwrap();

        // satisfy with inputs as instance variables
        let mut circom = CircomCircuit {
            r1cs: cfg.r1cs.clone(),
            witness: Some(witness.clone()),
            public_inputs_indexes: vec![],
            allocate_inputs_as_witnesses: false,
        };

        let cs = ConstraintSystem::<Fr>::new_ref();

        // allocate all some input variables as instance variables and push their indexes
        // recall that it should start with the first non-allocated public input
        for i in 3..cfg.r1cs.num_inputs {
            circom
                .public_inputs_indexes
                .push(Variable::Instance(cs.num_instance_variables()));
            cs.new_input_variable(|| Ok(witness[i])).unwrap();
        }

        circom.clone().generate_constraints(cs.clone()).unwrap();

        assert_eq!(cs.num_witness_variables(), 2);
        assert_eq!(cs.num_instance_variables(), 5);
        assert!(cs.is_satisfied().unwrap());

        // re-init and now satisfy with inputs as witness variables
        let mut circom = CircomCircuit {
            r1cs: cfg.r1cs.clone(),
            witness: Some(witness.clone()),
            public_inputs_indexes: vec![],
            allocate_inputs_as_witnesses: false,
        };

        let cs = ConstraintSystem::<Fr>::new_ref();
        for i in 3..cfg.r1cs.num_inputs {
            circom
                .public_inputs_indexes
                .push(Variable::Instance(cs.num_instance_variables()));
            cs.new_input_variable(|| Ok(witness[i])).unwrap();
        }
        circom.allocate_inputs_as_witnesses = true;
        circom.generate_constraints(cs.clone()).unwrap();

        assert_eq!(cs.num_witness_variables(), 4);
        assert_eq!(cs.num_instance_variables(), 3);
    }
 }