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feat: remove range constraints from witnesses which are constrained to be constants #3928

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Jan 4, 2024
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79 changes: 56 additions & 23 deletions acvm-repo/acvm/src/compiler/optimizers/redundant_range.rs
Original file line number Diff line number Diff line change
Expand Up @@ -48,25 +48,51 @@ impl RangeOptimizer {
/// only store the fact that we have constrained it to
/// be 16 bits.
fn collect_ranges(circuit: &Circuit) -> BTreeMap<Witness, u32> {
let mut witness_to_bit_sizes = BTreeMap::new();
let mut witness_to_bit_sizes: BTreeMap<Witness, u32> = BTreeMap::new();

for opcode in &circuit.opcodes {
// Extract the witness index and number of bits,
// if it is a range constraint
let (witness, num_bits) = match extract_range_opcode(opcode) {
Some(func_inputs) => func_inputs,
None => continue,
let Some((witness, num_bits)) = (match opcode {
Opcode::AssertZero(expr) => {
// If the opcode is constraining a witness to be equal to a value then it can be considered
// as a range opcode for the number of bits required to hold that value.
if expr.is_degree_one_univariate() {
let (k, witness) = expr.linear_combinations[0];
let constant = expr.q_c;
let witness_value = -constant / k;

if witness_value.is_zero() {
Some((witness, 0))
} else {
// We subtract off 1 bit from the implied witness value to give the weakest range constraint
// which would be stricter than the constraint imposed by this opcode.
let implied_range_constraint_bits = witness_value.num_bits() - 1;
Some((witness, implied_range_constraint_bits))
}
} else {
None
}
}


Opcode::BlackBoxFuncCall(BlackBoxFuncCall::RANGE {
input: FunctionInput { witness, num_bits },
}) => {
Some((*witness, *num_bits))
}

_ => None,
}) else {
continue;
};

// Check if the witness has already been recorded and if the witness
// size is more than the current one, we replace it
let should_replace = match witness_to_bit_sizes.get(&witness).copied() {
Some(old_range_bits) => old_range_bits > num_bits,
None => true,
};
if should_replace {
witness_to_bit_sizes.insert(witness, num_bits);
}
witness_to_bit_sizes
.entry(witness)
.and_modify(|old_range_bits| {
*old_range_bits = std::cmp::min(*old_range_bits, num_bits);
})
.or_insert(num_bits);
}
witness_to_bit_sizes
}
Expand Down Expand Up @@ -116,16 +142,10 @@ impl RangeOptimizer {
/// Extract the range opcode from the `Opcode` enum
/// Returns None, if `Opcode` is not the range opcode.
fn extract_range_opcode(opcode: &Opcode) -> Option<(Witness, u32)> {
// Range constraints are blackbox function calls
// so we first extract the function call
let func_call = match opcode {
acir::circuit::Opcode::BlackBoxFuncCall(func_call) => func_call,
_ => return None,
};

// Skip if it is not a range constraint
match func_call {
BlackBoxFuncCall::RANGE { input } => Some((input.witness, input.num_bits)),
match opcode {
Opcode::BlackBoxFuncCall(BlackBoxFuncCall::RANGE { input }) => {
Some((input.witness, input.num_bits))
}
_ => None,
}
}
Expand Down Expand Up @@ -246,4 +266,17 @@ mod tests {
let (optimized_circuit, _) = optimizer.replace_redundant_ranges(acir_opcode_positions);
assert_eq!(optimized_circuit.opcodes.len(), 5);
}

#[test]
fn constant_implied_ranges() {
// The optimizer should use knowledge about constant witness assignments to remove range opcodes.
let mut circuit = test_circuit(vec![(Witness(1), 16)]);

circuit.opcodes.push(Opcode::AssertZero(Witness(1).into()));
let acir_opcode_positions = circuit.opcodes.iter().enumerate().map(|(i, _)| i).collect();
let optimizer = RangeOptimizer::new(circuit);
let (optimized_circuit, _) = optimizer.replace_redundant_ranges(acir_opcode_positions);
assert_eq!(optimized_circuit.opcodes.len(), 1);
assert_eq!(optimized_circuit.opcodes[0], Opcode::AssertZero(Witness(1).into()));
}
}
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