Trait bellman::ConstraintSystem [−][src]
pub trait ConstraintSystem<Scalar: PrimeField>: Sized { type Root: ConstraintSystem<Scalar>; fn alloc<F, A, AR>(
&mut self,
annotation: A,
f: F
) -> Result<Variable, SynthesisError>
where
F: FnOnce() -> Result<Scalar, SynthesisError>,
A: FnOnce() -> AR,
AR: Into<String>; fn alloc_input<F, A, AR>(
&mut self,
annotation: A,
f: F
) -> Result<Variable, SynthesisError>
where
F: FnOnce() -> Result<Scalar, SynthesisError>,
A: FnOnce() -> AR,
AR: Into<String>; fn enforce<A, AR, LA, LB, LC>(&mut self, annotation: A, a: LA, b: LB, c: LC)
where
A: FnOnce() -> AR,
AR: Into<String>,
LA: FnOnce(LinearCombination<Scalar>) -> LinearCombination<Scalar>,
LB: FnOnce(LinearCombination<Scalar>) -> LinearCombination<Scalar>,
LC: FnOnce(LinearCombination<Scalar>) -> LinearCombination<Scalar>; fn push_namespace<NR, N>(&mut self, name_fn: N)
where
NR: Into<String>,
N: FnOnce() -> NR; fn pop_namespace(&mut self); fn get_root(&mut self) -> &mut Self::Root; fn one() -> Variable { ... } fn namespace<NR, N>(
&mut self,
name_fn: N
) -> Namespace<'_, Scalar, Self::Root>
where
NR: Into<String>,
N: FnOnce() -> NR, { ... } }
Expand description
Represents a constraint system which can have new variables allocated and constrains between them formed.
Associated Types
type Root: ConstraintSystem<Scalar>
[src]
type Root: ConstraintSystem<Scalar>
[src]Represents the type of the “root” of this constraint system so that nested namespaces can minimize indirection.
Required methods
Allocate a private variable in the constraint system. The provided function is used to
determine the assignment of the variable. The given annotation
function is invoked
in testing contexts in order to derive a unique name for this variable in the current
namespace.
fn alloc_input<F, A, AR>(
&mut self,
annotation: A,
f: F
) -> Result<Variable, SynthesisError> where
F: FnOnce() -> Result<Scalar, SynthesisError>,
A: FnOnce() -> AR,
AR: Into<String>,
[src]
fn alloc_input<F, A, AR>(
&mut self,
annotation: A,
f: F
) -> Result<Variable, SynthesisError> where
F: FnOnce() -> Result<Scalar, SynthesisError>,
A: FnOnce() -> AR,
AR: Into<String>,
[src]Allocate a public variable in the constraint system. The provided function is used to determine the assignment of the variable.
fn enforce<A, AR, LA, LB, LC>(&mut self, annotation: A, a: LA, b: LB, c: LC) where
A: FnOnce() -> AR,
AR: Into<String>,
LA: FnOnce(LinearCombination<Scalar>) -> LinearCombination<Scalar>,
LB: FnOnce(LinearCombination<Scalar>) -> LinearCombination<Scalar>,
LC: FnOnce(LinearCombination<Scalar>) -> LinearCombination<Scalar>,
[src]
fn enforce<A, AR, LA, LB, LC>(&mut self, annotation: A, a: LA, b: LB, c: LC) where
A: FnOnce() -> AR,
AR: Into<String>,
LA: FnOnce(LinearCombination<Scalar>) -> LinearCombination<Scalar>,
LB: FnOnce(LinearCombination<Scalar>) -> LinearCombination<Scalar>,
LC: FnOnce(LinearCombination<Scalar>) -> LinearCombination<Scalar>,
[src]Enforce that A
* B
= C
. The annotation
function is invoked in testing contexts
in order to derive a unique name for the constraint in the current namespace.
fn push_namespace<NR, N>(&mut self, name_fn: N) where
NR: Into<String>,
N: FnOnce() -> NR,
[src]
fn push_namespace<NR, N>(&mut self, name_fn: N) where
NR: Into<String>,
N: FnOnce() -> NR,
[src]Create a new (sub)namespace and enter into it. Not intended
for downstream use; use namespace
instead.
fn pop_namespace(&mut self)
[src]
fn pop_namespace(&mut self)
[src]Exit out of the existing namespace. Not intended for
downstream use; use namespace
instead.
Provided methods
Implementations on Foreign Types
impl<'cs, Scalar: PrimeField, CS: ConstraintSystem<Scalar>> ConstraintSystem<Scalar> for &'cs mut CS
[src]
impl<'cs, Scalar: PrimeField, CS: ConstraintSystem<Scalar>> ConstraintSystem<Scalar> for &'cs mut CS
[src]Convenience implementation of ConstraintSystem
fn alloc<F, A, AR>(
&mut self,
annotation: A,
f: F
) -> Result<Variable, SynthesisError> where
F: FnOnce() -> Result<Scalar, SynthesisError>,
A: FnOnce() -> AR,
AR: Into<String>,
[src]fn alloc_input<F, A, AR>(
&mut self,
annotation: A,
f: F
) -> Result<Variable, SynthesisError> where
F: FnOnce() -> Result<Scalar, SynthesisError>,
A: FnOnce() -> AR,
AR: Into<String>,
[src]fn enforce<A, AR, LA, LB, LC>(&mut self, annotation: A, a: LA, b: LB, c: LC) where
A: FnOnce() -> AR,
AR: Into<String>,
LA: FnOnce(LinearCombination<Scalar>) -> LinearCombination<Scalar>,
LB: FnOnce(LinearCombination<Scalar>) -> LinearCombination<Scalar>,
LC: FnOnce(LinearCombination<Scalar>) -> LinearCombination<Scalar>,
[src]Implementors
impl<'cs, Scalar: PrimeField, CS: ConstraintSystem<Scalar>> ConstraintSystem<Scalar> for Namespace<'cs, Scalar, CS>
[src]
impl<'cs, Scalar: PrimeField, CS: ConstraintSystem<Scalar>> ConstraintSystem<Scalar> for Namespace<'cs, Scalar, CS>
[src]fn alloc<F, A, AR>(
&mut self,
annotation: A,
f: F
) -> Result<Variable, SynthesisError> where
F: FnOnce() -> Result<Scalar, SynthesisError>,
A: FnOnce() -> AR,
AR: Into<String>,
[src]fn alloc_input<F, A, AR>(
&mut self,
annotation: A,
f: F
) -> Result<Variable, SynthesisError> where
F: FnOnce() -> Result<Scalar, SynthesisError>,
A: FnOnce() -> AR,
AR: Into<String>,
[src]fn enforce<A, AR, LA, LB, LC>(&mut self, annotation: A, a: LA, b: LB, c: LC) where
A: FnOnce() -> AR,
AR: Into<String>,
LA: FnOnce(LinearCombination<Scalar>) -> LinearCombination<Scalar>,
LB: FnOnce(LinearCombination<Scalar>) -> LinearCombination<Scalar>,
LC: FnOnce(LinearCombination<Scalar>) -> LinearCombination<Scalar>,
[src]type Root = Self
fn alloc<F, A, AR>(
&mut self,
annotation: A,
f: F
) -> Result<Variable, SynthesisError> where
F: FnOnce() -> Result<Scalar, SynthesisError>,
A: FnOnce() -> AR,
AR: Into<String>,
[src]fn alloc_input<F, A, AR>(
&mut self,
annotation: A,
f: F
) -> Result<Variable, SynthesisError> where
F: FnOnce() -> Result<Scalar, SynthesisError>,
A: FnOnce() -> AR,
AR: Into<String>,
[src]fn enforce<A, AR, LA, LB, LC>(&mut self, annotation: A, a: LA, b: LB, c: LC) where
A: FnOnce() -> AR,
AR: Into<String>,
LA: FnOnce(LinearCombination<Scalar>) -> LinearCombination<Scalar>,
LB: FnOnce(LinearCombination<Scalar>) -> LinearCombination<Scalar>,
LC: FnOnce(LinearCombination<Scalar>) -> LinearCombination<Scalar>,
[src]impl<Scalar: PrimeField, CS: ConstraintSystem<Scalar>> ConstraintSystem<Scalar> for MultiEq<Scalar, CS>
[src]
impl<Scalar: PrimeField, CS: ConstraintSystem<Scalar>> ConstraintSystem<Scalar> for MultiEq<Scalar, CS>
[src]type Root = Self
fn alloc<F, A, AR>(
&mut self,
annotation: A,
f: F
) -> Result<Variable, SynthesisError> where
F: FnOnce() -> Result<Scalar, SynthesisError>,
A: FnOnce() -> AR,
AR: Into<String>,
[src]fn alloc_input<F, A, AR>(
&mut self,
annotation: A,
f: F
) -> Result<Variable, SynthesisError> where
F: FnOnce() -> Result<Scalar, SynthesisError>,
A: FnOnce() -> AR,
AR: Into<String>,
[src]fn enforce<A, AR, LA, LB, LC>(&mut self, annotation: A, a: LA, b: LB, c: LC) where
A: FnOnce() -> AR,
AR: Into<String>,
LA: FnOnce(LinearCombination<Scalar>) -> LinearCombination<Scalar>,
LB: FnOnce(LinearCombination<Scalar>) -> LinearCombination<Scalar>,
LC: FnOnce(LinearCombination<Scalar>) -> LinearCombination<Scalar>,
[src]