Part one of Bellman being recoded.
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441
src/lib.rs
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441
src/lib.rs
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extern crate pairing;
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use pairing::{Engine, Field};
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use std::ops::{Add, Sub};
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use std::fmt;
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use std::error::Error;
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/// This represents a linear combination of some variables, with coefficients
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/// in the scalar field of a pairing-friendly elliptic curve group.
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pub struct LinearCombination<T, E: Engine>(Vec<(T, E::Fr)>);
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impl<T, E: Engine> LinearCombination<T, E> {
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pub fn zero() -> LinearCombination<T, E> {
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LinearCombination(vec![])
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}
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}
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impl<T, E: Engine> Add<(E::Fr, T)> for LinearCombination<T, E> {
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type Output = LinearCombination<T, E>;
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fn add(mut self, (coeff, var): (E::Fr, T)) -> LinearCombination<T, E> {
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self.0.push((var, coeff));
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self
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}
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}
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impl<T, E: Engine> Sub<(E::Fr, T)> for LinearCombination<T, E> {
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type Output = LinearCombination<T, E>;
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fn sub(self, (mut coeff, var): (E::Fr, T)) -> LinearCombination<T, E> {
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coeff.negate();
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self + (coeff, var)
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}
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}
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impl<T, E: Engine> Add<T> for LinearCombination<T, E> {
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type Output = LinearCombination<T, E>;
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fn add(self, other: T) -> LinearCombination<T, E> {
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self + (E::Fr::one(), other)
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}
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}
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impl<T, E: Engine> Sub<T> for LinearCombination<T, E> {
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type Output = LinearCombination<T, E>;
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fn sub(self, other: T) -> LinearCombination<T, E> {
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self - (E::Fr::one(), other)
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}
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}
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#[test]
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fn test_lc() {
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use pairing::bls12_381::{Bls12, Fr};
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let a = LinearCombination::<usize, Bls12>::zero() + 0usize + 1usize + 2usize - 3usize;
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let mut negone = Fr::one();
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negone.negate();
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assert_eq!(a.0, vec![(0usize, Fr::one()), (1usize, Fr::one()), (2usize, Fr::one()), (3usize, negone)]);
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}
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/// This is an error that could occur during circuit synthesis contexts,
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/// such as CRS generation, proving or verification.
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#[derive(Debug)]
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pub enum SynthesisError {
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AssignmentMissing
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}
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impl Error for SynthesisError {
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fn description(&self) -> &str {
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match *self {
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SynthesisError::AssignmentMissing => "an assignment for a variable could not be computed"
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}
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}
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}
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impl fmt::Display for SynthesisError {
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fn fmt(&self, f: &mut fmt::Formatter) -> Result<(), fmt::Error> {
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write!(f, "{}", self.description())
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}
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}
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pub trait ConstraintSystem<E: Engine>: Sized {
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type Variable;
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/// Represents the type of the "root" of this constraint system
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/// so that nested namespaces can minimize indirection.
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type Root: ConstraintSystem<E>;
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/// Return the "one" input variable
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fn one(&self) -> Self::Variable;
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/// Allocate a private variable in the constraint system. The provided function is used to
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/// determine the assignment of the variable. The given `annotation` function is invoked
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/// in testing contexts in order to derive a unique name for this variable in the current
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/// namespace.
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fn alloc<F, A, AR>(
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&mut self,
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annotation: A,
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f: F
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) -> Result<Self::Variable, SynthesisError>
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where F: FnOnce() -> Result<E::Fr, SynthesisError>, A: FnOnce() -> AR, AR: Into<String>;
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/// Enforce that `A` * `B` = `C`. The `annotation` function is invoked in testing contexts
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/// in order to derive a unique name for the constraint in the current namespace.
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fn enforce<A, AR>(
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&mut self,
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annotation: A,
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a: LinearCombination<Self::Variable, E>,
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b: LinearCombination<Self::Variable, E>,
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c: LinearCombination<Self::Variable, E>
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)
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where A: FnOnce() -> AR, AR: Into<String>;
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/// Create a new (sub)namespace and enter into it. Not intended
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/// for downstream use; use `namespace` instead.
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fn push_namespace<NR, N>(&mut self, name_fn: N)
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where NR: Into<String>, N: FnOnce() -> NR;
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/// Exit out of the existing namespace. Not intended for
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/// downstream use; use `namespace` instead.
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fn pop_namespace(&mut self);
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/// Gets the "root" constraint system, bypassing the namespacing.
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/// Not intended for downstream use; use `namespace` instead.
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fn get_root(&mut self) -> &mut Self::Root;
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/// Begin a namespace for this constraint system.
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fn namespace<'a, NR, N>(
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&'a mut self,
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name_fn: N
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) -> Namespace<'a, E, Self::Root>
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where NR: Into<String>, N: FnOnce() -> NR
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{
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self.get_root().push_namespace(name_fn);
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Namespace(self.get_root(), PhantomData)
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}
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}
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pub trait PublicConstraintSystem<E: Engine>: ConstraintSystem<E> {
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/// Allocate a public variable in the constraint system. The provided function is used to
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/// determine the assignment of the variable.
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fn alloc_input<F, A, AR>(
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&mut self,
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annotation: A,
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f: F
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) -> Result<Self::Variable, SynthesisError>
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where F: FnOnce() -> Result<E::Fr, SynthesisError>, A: FnOnce() -> AR, AR: Into<String>;
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}
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use std::marker::PhantomData;
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/// This is a "namespaced" constraint system which borrows a constraint system (pushing
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/// a namespace context) and, when dropped, pops out of the namespace context.
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pub struct Namespace<'a, E: Engine, CS: ConstraintSystem<E> + 'a>(&'a mut CS, PhantomData<E>);
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impl<'cs, E: Engine, CS: PublicConstraintSystem<E>> PublicConstraintSystem<E> for Namespace<'cs, E, CS> {
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fn alloc_input<F, A, AR>(
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&mut self,
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annotation: A,
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f: F
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) -> Result<Self::Variable, SynthesisError>
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where F: FnOnce() -> Result<E::Fr, SynthesisError>, A: FnOnce() -> AR, AR: Into<String>
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{
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self.0.alloc_input(annotation, f)
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}
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}
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impl<'cs, E: Engine, CS: ConstraintSystem<E>> ConstraintSystem<E> for Namespace<'cs, E, CS> {
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type Variable = CS::Variable;
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type Root = CS::Root;
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fn one(&self) -> Self::Variable {
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self.0.one()
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}
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fn alloc<F, A, AR>(
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&mut self,
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annotation: A,
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f: F
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) -> Result<Self::Variable, SynthesisError>
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where F: FnOnce() -> Result<E::Fr, SynthesisError>, A: FnOnce() -> AR, AR: Into<String>
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{
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self.0.alloc(annotation, f)
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}
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fn enforce<A, AR>(
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&mut self,
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annotation: A,
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a: LinearCombination<Self::Variable, E>,
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b: LinearCombination<Self::Variable, E>,
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c: LinearCombination<Self::Variable, E>
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)
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where A: FnOnce() -> AR, AR: Into<String>
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{
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self.0.enforce(annotation, a, b, c)
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}
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fn push_namespace<NR, N>(&mut self, name_fn: N)
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where NR: Into<String>, N: FnOnce() -> NR
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{
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self.0.push_namespace(name_fn)
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}
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fn pop_namespace(&mut self)
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{
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self.0.pop_namespace()
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}
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fn get_root(&mut self) -> &mut Self::Root
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{
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self.0.get_root()
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}
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}
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impl<'a, E: Engine, CS: ConstraintSystem<E>> Drop for Namespace<'a, E, CS> {
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fn drop(&mut self) {
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self.get_root().pop_namespace()
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}
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}
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/// Convenience implementation of PublicConstraintSystem<E> for mutable references to
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/// public constraint systems.
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impl<'cs, E: Engine, CS: PublicConstraintSystem<E>> PublicConstraintSystem<E> for &'cs mut CS {
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fn alloc_input<F, A, AR>(
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&mut self,
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annotation: A,
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f: F
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) -> Result<Self::Variable, SynthesisError>
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where F: FnOnce() -> Result<E::Fr, SynthesisError>, A: FnOnce() -> AR, AR: Into<String>
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{
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(**self).alloc_input(annotation, f)
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}
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}
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/// Convenience implementation of ConstraintSystem<E> for mutable references to
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/// constraint systems.
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impl<'cs, E: Engine, CS: ConstraintSystem<E>> ConstraintSystem<E> for &'cs mut CS {
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type Variable = CS::Variable;
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type Root = CS::Root;
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fn one(&self) -> Self::Variable {
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(**self).one()
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}
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fn alloc<F, A, AR>(
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&mut self,
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annotation: A,
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f: F
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) -> Result<Self::Variable, SynthesisError>
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where F: FnOnce() -> Result<E::Fr, SynthesisError>, A: FnOnce() -> AR, AR: Into<String>
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{
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(**self).alloc(annotation, f)
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}
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fn enforce<A, AR>(
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&mut self,
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annotation: A,
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a: LinearCombination<Self::Variable, E>,
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b: LinearCombination<Self::Variable, E>,
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c: LinearCombination<Self::Variable, E>
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)
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where A: FnOnce() -> AR, AR: Into<String>
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{
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(**self).enforce(annotation, a, b, c)
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}
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fn push_namespace<NR, N>(&mut self, name_fn: N)
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where NR: Into<String>, N: FnOnce() -> NR
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{
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(**self).push_namespace(name_fn)
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}
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fn pop_namespace(&mut self)
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{
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(**self).pop_namespace()
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}
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fn get_root(&mut self) -> &mut Self::Root
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{
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(**self).get_root()
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}
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}
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#[test]
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fn test_cs() {
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use pairing::bls12_381::{Bls12, Fr};
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#[derive(PartialEq)]
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enum Var {
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Input(usize),
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Aux(usize)
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}
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struct MySillyConstraintSystem<E: Engine> {
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inputs: Vec<(E::Fr, String)>,
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aux: Vec<(E::Fr, String)>,
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constraints: Vec<(LinearCombination<Var, E>, LinearCombination<Var, E>, LinearCombination<Var, E>, String)>,
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current_namespace: Vec<String>
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}
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fn compute_path(ns: &[String], this: String) -> String {
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let mut name = String::new();
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let mut needs_separation = false;
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for ns in ns.iter().chain(Some(&this).into_iter())
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{
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if needs_separation {
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name += "/";
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}
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name += ns;
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needs_separation = true;
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}
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name
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}
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impl<E: Engine> PublicConstraintSystem<E> for MySillyConstraintSystem<E> {
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fn alloc_input<F, A, AR>(
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&mut self,
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annotation: A,
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f: F
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) -> Result<Self::Variable, SynthesisError>
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where F: FnOnce() -> Result<E::Fr, SynthesisError>, A: FnOnce() -> AR, AR: Into<String>
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{
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let index = self.inputs.len();
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let path = compute_path(&self.current_namespace, annotation().into());
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self.inputs.push((f()?, path));
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Ok(Var::Input(index))
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}
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}
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impl<E: Engine> ConstraintSystem<E> for MySillyConstraintSystem<E> {
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type Variable = Var;
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type Root = Self;
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fn one(&self) -> Self::Variable {
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Var::Input(0)
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}
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fn alloc<F, A, AR>(
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&mut self,
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annotation: A,
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f: F
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) -> Result<Self::Variable, SynthesisError>
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where F: FnOnce() -> Result<E::Fr, SynthesisError>, A: FnOnce() -> AR, AR: Into<String>
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{
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let index = self.aux.len();
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let path = compute_path(&self.current_namespace, annotation().into());
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self.aux.push((f()?, path));
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Ok(Var::Aux(index))
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}
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fn enforce<A, AR>(
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&mut self,
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annotation: A,
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a: LinearCombination<Self::Variable, E>,
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b: LinearCombination<Self::Variable, E>,
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c: LinearCombination<Self::Variable, E>
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)
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where A: FnOnce() -> AR, AR: Into<String>
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{
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let path = compute_path(&self.current_namespace, annotation().into());
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self.constraints.push((a, b, c, path));
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}
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fn push_namespace<NR, N>(&mut self, name_fn: N)
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where NR: Into<String>, N: FnOnce() -> NR
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{
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self.current_namespace.push(name_fn().into());
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}
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fn pop_namespace(&mut self)
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{
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self.current_namespace.pop();
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}
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fn get_root(&mut self) -> &mut Self::Root
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{
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self
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}
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}
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let mut cs = MySillyConstraintSystem::<Bls12> {
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inputs: vec![(Fr::one(), "ONE".into())],
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aux: vec![],
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constraints: vec![],
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current_namespace: vec![]
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};
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||||||
|
cs.alloc(|| "something", || Ok(Fr::zero())).unwrap();
|
||||||
|
assert_eq!(cs.inputs, vec![(Fr::one(), "ONE".into())]);
|
||||||
|
assert_eq!(cs.aux, vec![(Fr::zero(), "something".into())]);
|
||||||
|
{
|
||||||
|
let mut cs = cs.namespace(|| "woohoo");
|
||||||
|
|
||||||
|
cs.alloc(|| "whatever", || Ok(Fr::one())).unwrap();
|
||||||
|
cs.alloc(|| "you", || Ok(Fr::zero())).unwrap();
|
||||||
|
cs.alloc(|| "say", || Ok(Fr::one())).unwrap();
|
||||||
|
|
||||||
|
{
|
||||||
|
let mut cs = cs.namespace(|| "hehe");
|
||||||
|
|
||||||
|
let v1 = cs.alloc(|| "hehe, indeed", || Ok(Fr::one())).unwrap();
|
||||||
|
let v2 = cs.alloc_input(|| "works lol", || Ok(Fr::zero())).unwrap();
|
||||||
|
|
||||||
|
let one = cs.one();
|
||||||
|
|
||||||
|
cs.enforce(
|
||||||
|
|| "great constraint",
|
||||||
|
LinearCombination::zero() + v1,
|
||||||
|
LinearCombination::zero() + one,
|
||||||
|
LinearCombination::zero() + v2
|
||||||
|
);
|
||||||
|
}
|
||||||
|
}
|
||||||
|
assert_eq!(cs.aux, vec![
|
||||||
|
(Fr::zero(), "something".into()),
|
||||||
|
(Fr::one(), "woohoo/whatever".into()),
|
||||||
|
(Fr::zero(), "woohoo/you".into()),
|
||||||
|
(Fr::one(), "woohoo/say".into()),
|
||||||
|
(Fr::one(), "woohoo/hehe/hehe, indeed".into()),
|
||||||
|
]);
|
||||||
|
assert_eq!(cs.inputs, vec![
|
||||||
|
(Fr::one(), "ONE".into()),
|
||||||
|
(Fr::zero(), "woohoo/hehe/works lol".into()),
|
||||||
|
]);
|
||||||
|
assert!(cs.constraints.len() == 1);
|
||||||
|
assert!((cs.constraints[0].0).0 == vec![(Var::Aux(4), Fr::one())]);
|
||||||
|
assert!((cs.constraints[0].1).0 == vec![(Var::Input(0), Fr::one())]);
|
||||||
|
assert!((cs.constraints[0].2).0 == vec![(Var::Input(1), Fr::one())]);
|
||||||
|
assert!(cs.constraints[0].3 == "woohoo/hehe/great constraint");
|
||||||
|
}
|
Loading…
Reference in New Issue
Block a user