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[1 changes] fix: Fix panic in comptime code (noir-lang/noir#6361)
feat: let the LSP import code action insert into existing use statements (noir-lang/noir#6358) chore: minor tweaks to comptime doc (noir-lang/noir#6357) feat: LSP auto-import will try to add to existing use statements (noir-lang/noir#6354) fix: allow type aliases in let patterns (noir-lang/noir#6356) feat(test): Run test matrix on stdlib tests (noir-lang/noir#6352) fix(ssa): Do not mark an array from a parameter mutable (noir-lang/noir#6355) fix: always inline `derive_generators` (noir-lang/noir#6350) chore: add test to check that duplicate definitions generated from macros throws error (noir-lang/noir#6351) chore: switch to btreeset for deterministic ordering (noir-lang/noir#6348) feat(perf): Use [u32;16] for message block in sha256 (noir-lang/noir#6324) chore: add some tests for type aliases feat: remove 'single use' intermediate variables (noir-lang/noir#6268) feat: Sync from aztec-packages (noir-lang/noir#6345) feat(profiler)!: New flamegraph command that profiles the opcodes executed (noir-lang/noir#6327) feat: check trait where clause (noir-lang/noir#6325) fix: better formatting of leading/trailing line/block comments in expression lists (noir-lang/noir#6338) feat: let the formatter remove lambda block braces for single-statement blocks (noir-lang/noir#6335) chore: run tests in metaprogramming.rs (noir-lang/noir#6339)
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202 changes: 202 additions & 0 deletions
202
noir/noir-repo/acvm-repo/acvm/src/compiler/optimizers/merge_expressions.rs
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use std::collections::{BTreeMap, BTreeSet, HashMap}; | ||
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use acir::{ | ||
circuit::{brillig::BrilligInputs, directives::Directive, opcodes::BlockId, Circuit, Opcode}, | ||
native_types::{Expression, Witness}, | ||
AcirField, | ||
}; | ||
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pub(crate) struct MergeExpressionsOptimizer { | ||
resolved_blocks: HashMap<BlockId, BTreeSet<Witness>>, | ||
} | ||
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impl MergeExpressionsOptimizer { | ||
pub(crate) fn new() -> Self { | ||
MergeExpressionsOptimizer { resolved_blocks: HashMap::new() } | ||
} | ||
/// This pass analyzes the circuit and identifies intermediate variables that are | ||
/// only used in two gates. It then merges the gate that produces the | ||
/// intermediate variable into the second one that uses it | ||
/// Note: This pass is only relevant for backends that can handle unlimited width | ||
pub(crate) fn eliminate_intermediate_variable<F: AcirField>( | ||
&mut self, | ||
circuit: &Circuit<F>, | ||
acir_opcode_positions: Vec<usize>, | ||
) -> (Vec<Opcode<F>>, Vec<usize>) { | ||
// Keep track, for each witness, of the gates that use it | ||
let circuit_inputs = circuit.circuit_arguments(); | ||
self.resolved_blocks = HashMap::new(); | ||
let mut used_witness: BTreeMap<Witness, BTreeSet<usize>> = BTreeMap::new(); | ||
for (i, opcode) in circuit.opcodes.iter().enumerate() { | ||
let witnesses = self.witness_inputs(opcode); | ||
if let Opcode::MemoryInit { block_id, .. } = opcode { | ||
self.resolved_blocks.insert(*block_id, witnesses.clone()); | ||
} | ||
for w in witnesses { | ||
// We do not simplify circuit inputs | ||
if !circuit_inputs.contains(&w) { | ||
used_witness.entry(w).or_default().insert(i); | ||
} | ||
} | ||
} | ||
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let mut modified_gates: HashMap<usize, Opcode<F>> = HashMap::new(); | ||
let mut new_circuit = Vec::new(); | ||
let mut new_acir_opcode_positions = Vec::new(); | ||
// For each opcode, try to get a target opcode to merge with | ||
for (i, opcode) in circuit.opcodes.iter().enumerate() { | ||
if !matches!(opcode, Opcode::AssertZero(_)) { | ||
new_circuit.push(opcode.clone()); | ||
new_acir_opcode_positions.push(acir_opcode_positions[i]); | ||
continue; | ||
} | ||
let opcode = modified_gates.get(&i).unwrap_or(opcode).clone(); | ||
let mut to_keep = true; | ||
let input_witnesses = self.witness_inputs(&opcode); | ||
for w in input_witnesses.clone() { | ||
let empty_gates = BTreeSet::new(); | ||
let gates_using_w = used_witness.get(&w).unwrap_or(&empty_gates); | ||
// We only consider witness which are used in exactly two arithmetic gates | ||
if gates_using_w.len() == 2 { | ||
let gates_using_w: Vec<_> = gates_using_w.iter().collect(); | ||
let mut b = *gates_using_w[1]; | ||
if b == i { | ||
b = *gates_using_w[0]; | ||
} else { | ||
// sanity check | ||
assert!(i == *gates_using_w[0]); | ||
} | ||
let second_gate = modified_gates.get(&b).unwrap_or(&circuit.opcodes[b]).clone(); | ||
if let (Opcode::AssertZero(expr_define), Opcode::AssertZero(expr_use)) = | ||
(opcode.clone(), second_gate) | ||
{ | ||
if let Some(expr) = Self::merge(&expr_use, &expr_define, w) { | ||
// sanity check | ||
assert!(i < b); | ||
modified_gates.insert(b, Opcode::AssertZero(expr)); | ||
to_keep = false; | ||
// Update the 'used_witness' map to account for the merge. | ||
for w2 in Self::expr_wit(&expr_define) { | ||
if !circuit_inputs.contains(&w2) { | ||
let mut v = used_witness[&w2].clone(); | ||
v.insert(b); | ||
v.remove(&i); | ||
used_witness.insert(w2, v); | ||
} | ||
} | ||
// We need to stop here and continue with the next opcode | ||
// because the merge invalidate the current opcode | ||
break; | ||
} | ||
} | ||
} | ||
} | ||
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if to_keep { | ||
if modified_gates.contains_key(&i) { | ||
new_circuit.push(modified_gates[&i].clone()); | ||
} else { | ||
new_circuit.push(opcode.clone()); | ||
} | ||
new_acir_opcode_positions.push(acir_opcode_positions[i]); | ||
} | ||
} | ||
(new_circuit, new_acir_opcode_positions) | ||
} | ||
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fn expr_wit<F>(expr: &Expression<F>) -> BTreeSet<Witness> { | ||
let mut result = BTreeSet::new(); | ||
result.extend(expr.mul_terms.iter().flat_map(|i| vec![i.1, i.2])); | ||
result.extend(expr.linear_combinations.iter().map(|i| i.1)); | ||
result | ||
} | ||
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fn brillig_input_wit<F>(&self, input: &BrilligInputs<F>) -> BTreeSet<Witness> { | ||
let mut result = BTreeSet::new(); | ||
match input { | ||
BrilligInputs::Single(expr) => { | ||
result.extend(Self::expr_wit(expr)); | ||
} | ||
BrilligInputs::Array(exprs) => { | ||
for expr in exprs { | ||
result.extend(Self::expr_wit(expr)); | ||
} | ||
} | ||
BrilligInputs::MemoryArray(block_id) => { | ||
let witnesses = self.resolved_blocks.get(block_id).expect("Unknown block id"); | ||
result.extend(witnesses); | ||
} | ||
} | ||
result | ||
} | ||
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// Returns the input witnesses used by the opcode | ||
fn witness_inputs<F: AcirField>(&self, opcode: &Opcode<F>) -> BTreeSet<Witness> { | ||
let mut witnesses = BTreeSet::new(); | ||
match opcode { | ||
Opcode::AssertZero(expr) => Self::expr_wit(expr), | ||
Opcode::BlackBoxFuncCall(bb_func) => bb_func.get_input_witnesses(), | ||
Opcode::Directive(Directive::ToLeRadix { a, .. }) => Self::expr_wit(a), | ||
Opcode::MemoryOp { block_id: _, op, predicate } => { | ||
//index et value, et predicate | ||
let mut witnesses = BTreeSet::new(); | ||
witnesses.extend(Self::expr_wit(&op.index)); | ||
witnesses.extend(Self::expr_wit(&op.value)); | ||
if let Some(p) = predicate { | ||
witnesses.extend(Self::expr_wit(p)); | ||
} | ||
witnesses | ||
} | ||
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Opcode::MemoryInit { block_id: _, init, block_type: _ } => { | ||
init.iter().cloned().collect() | ||
} | ||
Opcode::BrilligCall { inputs, .. } => { | ||
for i in inputs { | ||
witnesses.extend(self.brillig_input_wit(i)); | ||
} | ||
witnesses | ||
} | ||
Opcode::Call { id: _, inputs, outputs: _, predicate } => { | ||
for i in inputs { | ||
witnesses.insert(*i); | ||
} | ||
if let Some(p) = predicate { | ||
witnesses.extend(Self::expr_wit(p)); | ||
} | ||
witnesses | ||
} | ||
} | ||
} | ||
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// Merge 'expr' into 'target' via Gaussian elimination on 'w' | ||
// Returns None if the expressions cannot be merged | ||
fn merge<F: AcirField>( | ||
target: &Expression<F>, | ||
expr: &Expression<F>, | ||
w: Witness, | ||
) -> Option<Expression<F>> { | ||
// Check that the witness is not part of multiplication terms | ||
for m in &target.mul_terms { | ||
if m.1 == w || m.2 == w { | ||
return None; | ||
} | ||
} | ||
for m in &expr.mul_terms { | ||
if m.1 == w || m.2 == w { | ||
return None; | ||
} | ||
} | ||
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for k in &target.linear_combinations { | ||
if k.1 == w { | ||
for i in &expr.linear_combinations { | ||
if i.1 == w { | ||
return Some(target.add_mul(-(k.0 / i.0), expr)); | ||
} | ||
} | ||
} | ||
} | ||
None | ||
} | ||
} |
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