use halo2::{ arithmetic::FieldExt, circuit::{layouter::SingleChipLayouter, Cell, Layouter, Region}, dev::CircuitLayout, pasta::Fp, plonk::{Advice, Assignment, Circuit, Column, ConstraintSystem, Error, Fixed, Permutation}, poly::Rotation, }; use plotters::prelude::*; use std::marker::PhantomData; #[allow(clippy::many_single_char_names)] fn main() { /// This represents an advice column at a certain row in the ConstraintSystem #[derive(Copy, Clone, Debug)] pub struct Variable(Column, usize); #[derive(Clone)] struct PLONKConfig { a: Column, b: Column, c: Column, d: Column, e: Column, sa: Column, sb: Column, sc: Column, sm: Column, sp: Column, sl: Column, sl2: Column, perm: Permutation, perm2: Permutation, } trait StandardCS { fn raw_multiply( &self, region: &mut Region, f: F, ) -> Result<(Cell, Cell, Cell), Error> where F: FnMut() -> Result<(FF, FF, FF), Error>; fn raw_add(&self, region: &mut Region, f: F) -> Result<(Cell, Cell, Cell), Error> where F: FnMut() -> Result<(FF, FF, FF), Error>; fn copy(&self, region: &mut Region, a: Cell, b: Cell) -> Result<(), Error>; fn public_input(&self, layouter: &mut impl Layouter, f: F) -> Result where F: FnMut() -> Result; fn lookup_table( &self, layouter: &mut impl Layouter, values: &[Vec], ) -> Result<(), Error>; } struct MyCircuit { a: Option, lookup_tables: Vec>, } struct StandardPLONK { config: PLONKConfig, _marker: PhantomData, } impl StandardPLONK { fn new(config: PLONKConfig) -> Self { StandardPLONK { config, _marker: PhantomData, } } } impl StandardCS for StandardPLONK { fn raw_multiply( &self, region: &mut Region, mut f: F, ) -> Result<(Cell, Cell, Cell), Error> where F: FnMut() -> Result<(FF, FF, FF), Error>, { let mut value = None; let lhs = region.assign_advice( || "lhs", self.config.a, 0, || { value = Some(f()?); Ok(value.ok_or(Error::SynthesisError)?.0) }, )?; region.assign_advice( || "lhs^4", self.config.d, 0, || Ok(value.ok_or(Error::SynthesisError)?.0.square().square()), )?; let rhs = region.assign_advice( || "rhs", self.config.b, 0, || Ok(value.ok_or(Error::SynthesisError)?.1), )?; region.assign_advice( || "rhs^4", self.config.e, 0, || Ok(value.ok_or(Error::SynthesisError)?.1.square().square()), )?; let out = region.assign_advice( || "out", self.config.c, 0, || Ok(value.ok_or(Error::SynthesisError)?.2), )?; region.assign_fixed(|| "a", self.config.sa, 0, || Ok(FF::zero()))?; region.assign_fixed(|| "b", self.config.sb, 0, || Ok(FF::zero()))?; region.assign_fixed(|| "c", self.config.sc, 0, || Ok(FF::one()))?; region.assign_fixed(|| "a * b", self.config.sm, 0, || Ok(FF::one()))?; Ok((lhs, rhs, out)) } fn raw_add(&self, region: &mut Region, mut f: F) -> Result<(Cell, Cell, Cell), Error> where F: FnMut() -> Result<(FF, FF, FF), Error>, { let mut value = None; let lhs = region.assign_advice( || "lhs", self.config.a, 0, || { value = Some(f()?); Ok(value.ok_or(Error::SynthesisError)?.0) }, )?; region.assign_advice( || "lhs^4", self.config.d, 0, || Ok(value.ok_or(Error::SynthesisError)?.0.square().square()), )?; let rhs = region.assign_advice( || "rhs", self.config.b, 0, || Ok(value.ok_or(Error::SynthesisError)?.1), )?; region.assign_advice( || "rhs^4", self.config.e, 0, || Ok(value.ok_or(Error::SynthesisError)?.1.square().square()), )?; let out = region.assign_advice( || "out", self.config.c, 0, || Ok(value.ok_or(Error::SynthesisError)?.2), )?; region.assign_fixed(|| "a", self.config.sa, 0, || Ok(FF::one()))?; region.assign_fixed(|| "b", self.config.sb, 0, || Ok(FF::one()))?; region.assign_fixed(|| "c", self.config.sc, 0, || Ok(FF::one()))?; region.assign_fixed(|| "a * b", self.config.sm, 0, || Ok(FF::zero()))?; Ok((lhs, rhs, out)) } fn copy(&self, region: &mut Region, left: Cell, right: Cell) -> Result<(), Error> { region.constrain_equal(&self.config.perm, left, right)?; region.constrain_equal(&self.config.perm2, left, right) } fn public_input(&self, layouter: &mut impl Layouter, mut f: F) -> Result where F: FnMut() -> Result, { layouter.assign_region( || "public_input", |mut region| { let value = region.assign_advice(|| "value", self.config.a, 0, || f())?; region.assign_fixed(|| "public", self.config.sp, 0, || Ok(FF::one()))?; Ok(value) }, ) } fn lookup_table( &self, layouter: &mut impl Layouter, values: &[Vec], ) -> Result<(), Error> { layouter.assign_region( || "", |mut region| { for (index, (&value_0, &value_1)) in values[0].iter().zip(values[1].iter()).enumerate() { region.assign_fixed( || "table col 1", self.config.sl, index, || Ok(value_0), )?; region.assign_fixed( || "table col 2", self.config.sl2, index, || Ok(value_1), )?; } Ok(()) }, )?; Ok(()) } } impl Circuit for MyCircuit { type Config = PLONKConfig; fn configure(meta: &mut ConstraintSystem) -> PLONKConfig { let e = meta.advice_column(); let a = meta.advice_column(); let b = meta.advice_column(); let sf = meta.fixed_column(); let c = meta.advice_column(); let d = meta.advice_column(); let p = meta.instance_column(); let perm = meta.permutation(&[a.into(), b.into(), c.into()]); let perm2 = meta.permutation(&[a.into(), b.into(), c.into()]); let sm = meta.fixed_column(); let sa = meta.fixed_column(); let sb = meta.fixed_column(); let sc = meta.fixed_column(); let sp = meta.fixed_column(); let sl = meta.fixed_column(); let sl2 = meta.fixed_column(); /* * A B ... sl sl2 * [ * instance 0 ... 0 0 * a a ... 0 0 * a a^2 ... 0 0 * a a ... 0 0 * a a^2 ... 0 0 * ... ... ... ... ... * ... ... ... instance 0 * ... ... ... a a * ... ... ... a a^2 * ... ... ... 0 0 * ] */ meta.lookup(|meta| { let a_ = meta.query_any(a.into(), Rotation::cur()); let sl_ = meta.query_any(sl.into(), Rotation::cur()); vec![(a_, sl_)] }); meta.lookup(|meta| { let a_ = meta.query_any(a.into(), Rotation::cur()); let b_ = meta.query_any(b.into(), Rotation::cur()); let sl_ = meta.query_any(sl.into(), Rotation::cur()); let sl2_ = meta.query_any(sl2.into(), Rotation::cur()); vec![(a_, sl_), (b_, sl2_)] }); meta.create_gate("Combined add-mult", |meta| { let d = meta.query_advice(d, Rotation::next()); let a = meta.query_advice(a, Rotation::cur()); let sf = meta.query_fixed(sf, Rotation::cur()); let e = meta.query_advice(e, Rotation::prev()); let b = meta.query_advice(b, Rotation::cur()); let c = meta.query_advice(c, Rotation::cur()); let sa = meta.query_fixed(sa, Rotation::cur()); let sb = meta.query_fixed(sb, Rotation::cur()); let sc = meta.query_fixed(sc, Rotation::cur()); let sm = meta.query_fixed(sm, Rotation::cur()); vec![ a.clone() * sa + b.clone() * sb + a * b * sm + (c * sc * (-F::one())) + sf * (d * e), ] }); meta.create_gate("Public input", |meta| { let a = meta.query_advice(a, Rotation::cur()); let p = meta.query_instance(p, Rotation::cur()); let sp = meta.query_fixed(sp, Rotation::cur()); vec![sp * (a + p * (-F::one()))] }); PLONKConfig { a, b, c, d, e, sa, sb, sc, sm, sp, sl, sl2, perm, perm2, } } fn synthesize( &self, cs: &mut impl Assignment, config: PLONKConfig, ) -> Result<(), Error> { let mut layouter = SingleChipLayouter::new(cs)?; let cs = StandardPLONK::new(config); let _ = cs.public_input(&mut layouter.namespace(|| "input"), || { Ok(F::one() + F::one()) })?; for i in 0..10 { layouter.assign_region( || format!("region_{}", i), |mut region| { let mut a_squared = None; let (a0, _, c0) = cs.raw_multiply(&mut region, || { a_squared = self.a.map(|a| a.square()); Ok(( self.a.ok_or(Error::SynthesisError)?, self.a.ok_or(Error::SynthesisError)?, a_squared.ok_or(Error::SynthesisError)?, )) })?; let (a1, b1, _) = cs.raw_add(&mut region, || { let fin = a_squared.and_then(|a2| self.a.map(|a| a + a2)); Ok(( self.a.ok_or(Error::SynthesisError)?, a_squared.ok_or(Error::SynthesisError)?, fin.ok_or(Error::SynthesisError)?, )) })?; cs.copy(&mut region, a0, a1)?; cs.copy(&mut region, b1, c0) }, )?; } cs.lookup_table(&mut layouter, &self.lookup_tables)?; Ok(()) } } let a = Fp::rand(); let a_squared = a * a; let instance = Fp::one() + Fp::one(); let lookup_table = vec![instance, a, a, Fp::zero()]; let lookup_table_2 = vec![Fp::zero(), a, a_squared, Fp::zero()]; let circuit: MyCircuit = MyCircuit { a: None, lookup_tables: vec![lookup_table, lookup_table_2], }; let root = BitMapBackend::new("example-circuit-layout.png", (1024, 768)).into_drawing_area(); root.fill(&WHITE).unwrap(); let root = root .titled("Example Circuit Layout", ("sans-serif", 60)) .unwrap(); CircuitLayout::default().render(&circuit, &root).unwrap(); }