Trait snarkvm_wasm::GroupGadget

pub trait GroupGadget<G, F>: ToBytesGadget<F> + NEqGadget<F> + EqGadget<F> + ToBitsBEGadget<F> + CondSelectGadget<F> + AllocGadget<G, F> + Clone + Debug where
    G: Group,
    F: Field, {
    type Value: Debug;
    type Variable;
    fn get_value(&self) -> Option<Self::Value>;
    fn get_variable(&self) -> Self::Variable;
    fn zero<CS>(cs: CS) -> Result<Self, SynthesisError>
    where
        CS: ConstraintSystem<F>;
    fn add<CS>(&self, cs: CS, other: &Self) -> Result<Self, SynthesisError>
    where
        CS: ConstraintSystem<F>;
    fn add_constant<CS>(
        &self, 
        cs: CS, 
        other: &G
    ) -> Result<Self, SynthesisError>
    where
        CS: ConstraintSystem<F>;
    fn double_in_place<CS>(&mut self, cs: CS) -> Result<(), SynthesisError>
    where
        CS: ConstraintSystem<F>;
    fn negate<CS>(&self, cs: CS) -> Result<Self, SynthesisError>
    where
        CS: ConstraintSystem<F>;
    fn cost_of_add() -> usize;
    fn cost_of_double() -> usize;

    fn sub<CS>(&self, cs: CS, other: &Self) -> Result<Self, SynthesisError>
    where
        CS: ConstraintSystem<F>,
    { ... }
    fn sub_constant<CS>(
        &self, 
        cs: CS, 
        other: &G
    ) -> Result<Self, SynthesisError>
    where
        CS: ConstraintSystem<F>,
    { ... }
    fn mul_bits<CS>(
        &self, 
        cs: CS, 
        result: &Self, 
        bits: impl Iterator<Item = Boolean>
    ) -> Result<Self, SynthesisError>
    where
        CS: ConstraintSystem<F>,
    { ... }
    fn scalar_multiplication<'a, CS, I, B>(
        &mut self, 
        cs: CS, 
        scalar_bits_with_base_powers: I
    ) -> Result<(), SynthesisError>
    where
        CS: ConstraintSystem<F>,
        B: Borrow<Boolean>,
        G: 'a,
        I: Iterator<Item = (B, &'a G)>,
    { ... }
    fn symmetric_scalar_multiplication<'a, CS, I, B>(
        &mut self, 
        cs: CS, 
        scalar_bits_with_base_powers: I
    ) -> Result<(), SynthesisError>
    where
        CS: ConstraintSystem<F>,
        B: Borrow<Boolean>,
        G: 'a,
        I: Iterator<Item = (B, &'a G)>,
    { ... }
    fn masked_scalar_multiplication<'a, CS, I, B>(
        &mut self, 
        CS, 
        I, 
        I
    ) -> Result<(), SynthesisError>
    where
        CS: ConstraintSystem<F>,
        B: Borrow<Boolean>,
        G: 'a,
        I: Iterator<Item = (B, &'a G)>,
    { ... }
    fn three_bit_signed_digit_scalar_multiplication<CS, I, J, K, B>(
        CS, 
        &[B], 
        K
    ) -> Result<Self, SynthesisError>
    where
        CS: ConstraintSystem<F>,
        B: Borrow<[G]>,
        I: Borrow<[Boolean]>,
        J: Iterator<Item = I>,
        K: Iterator<Item = J>,
    { ... }
    fn multi_scalar_multiplication<'a, CS, T, I, B>(
        cs: CS, 
        bases: &[B], 
        scalars: I
    ) -> Result<Self, SynthesisError>
    where
        CS: ConstraintSystem<F>,
        B: Borrow<[G]>,
        T: 'a + ToBitsBEGadget<F> + ?Sized,
        I: Iterator<Item = &'a T>,
    { ... }
    fn symmetric_multi_scalar_multiplication<'a, CS, T, I, B>(
        cs: CS, 
        bases: &[B], 
        scalars: I
    ) -> Result<Self, SynthesisError>
    where
        CS: ConstraintSystem<F>,
        B: Borrow<[G]>,
        T: 'a + ToBitsBEGadget<F> + ?Sized,
        I: Iterator<Item = &'a T>,
    { ... }
    fn masked_multi_scalar_multiplication<'a, CS, T, I, B>(
        cs: CS, 
        bases: &[B], 
        scalars: I, 
        mask_bases: &[B], 
        masks: I
    ) -> Result<Self, SynthesisError>
    where
        CS: ConstraintSystem<F>,
        B: Borrow<[G]>,
        T: 'a + ToBitsBEGadget<F> + ?Sized,
        I: Iterator<Item = &'a T>,
    { ... }
}

Associated Types

type Value: Debug

type Variable

Required methods

fn get_value(&self) -> Option<Self::Value>

fn get_variable(&self) -> Self::Variable

fn zero<CS>(cs: CS) -> Result<Self, SynthesisError> where
    CS: ConstraintSystem<F>, 

fn add<CS>(&self, cs: CS, other: &Self) -> Result<Self, SynthesisError> where
    CS: ConstraintSystem<F>, 

fn add_constant<CS>(&self, cs: CS, other: &G) -> Result<Self, SynthesisError> where
    CS: ConstraintSystem<F>, 

fn double_in_place<CS>(&mut self, cs: CS) -> Result<(), SynthesisError> where
    CS: ConstraintSystem<F>, 

fn negate<CS>(&self, cs: CS) -> Result<Self, SynthesisError> where
    CS: ConstraintSystem<F>, 

fn cost_of_add() -> usize

fn cost_of_double() -> usize

Provided methods

fn sub<CS>(&self, cs: CS, other: &Self) -> Result<Self, SynthesisError> where
    CS: ConstraintSystem<F>, 

fn sub_constant<CS>(&self, cs: CS, other: &G) -> Result<Self, SynthesisError> where
    CS: ConstraintSystem<F>, 

fn mul_bits<CS>(
    &self,
    cs: CS,
    result: &Self,
    bits: impl Iterator<Item = Boolean>
) -> Result<Self, SynthesisError> where
    CS: ConstraintSystem<F>, 

Inputs must be specified in little-endian form. If the addition law is incomplete for the identity element, result must not be the identity element.

fn scalar_multiplication<'a, CS, I, B>(
    &mut self,
    cs: CS,
    scalar_bits_with_base_powers: I
) -> Result<(), SynthesisError> where
    CS: ConstraintSystem<F>,
    B: Borrow<Boolean>,
    G: 'a,
    I: Iterator<Item = (B, &'a G)>, 

fn symmetric_scalar_multiplication<'a, CS, I, B>(
    &mut self,
    cs: CS,
    scalar_bits_with_base_powers: I
) -> Result<(), SynthesisError> where
    CS: ConstraintSystem<F>,
    B: Borrow<Boolean>,
    G: 'a,
    I: Iterator<Item = (B, &'a G)>, 

fn masked_scalar_multiplication<'a, CS, I, B>(
    &mut self,
    CS,
    I,
    I
) -> Result<(), SynthesisError> where
    CS: ConstraintSystem<F>,
    B: Borrow<Boolean>,
    G: 'a,
    I: Iterator<Item = (B, &'a G)>, 

fn three_bit_signed_digit_scalar_multiplication<CS, I, J, K, B>(
    CS,
    &[B],
    K
) -> Result<Self, SynthesisError> where
    CS: ConstraintSystem<F>,
    B: Borrow<[G]>,
    I: Borrow<[Boolean]>,
    J: Iterator<Item = I>,
    K: Iterator<Item = J>, 

fn multi_scalar_multiplication<'a, CS, T, I, B>(
    cs: CS,
    bases: &[B],
    scalars: I
) -> Result<Self, SynthesisError> where
    CS: ConstraintSystem<F>,
    B: Borrow<[G]>,
    T: 'a + ToBitsBEGadget<F> + ?Sized,
    I: Iterator<Item = &'a T>, 

Computes Σⱼ(scalarⱼ * baseⱼ) for all j, where scalarⱼ is a Boolean representation of the j-th scalar.

fn symmetric_multi_scalar_multiplication<'a, CS, T, I, B>(
    cs: CS,
    bases: &[B],
    scalars: I
) -> Result<Self, SynthesisError> where
    CS: ConstraintSystem<F>,
    B: Borrow<[G]>,
    T: 'a + ToBitsBEGadget<F> + ?Sized,
    I: Iterator<Item = &'a T>, 

fn masked_multi_scalar_multiplication<'a, CS, T, I, B>(
    cs: CS,
    bases: &[B],
    scalars: I,
    mask_bases: &[B],
    masks: I
) -> Result<Self, SynthesisError> where
    CS: ConstraintSystem<F>,
    B: Borrow<[G]>,
    T: 'a + ToBitsBEGadget<F> + ?Sized,
    I: Iterator<Item = &'a T>, 

Compute ∏((h_i^{-1} * 1[p_i = 0] + h_i * 1[p_i = 1])^{1 - m_i \xor p_i})((g_i h_i^{-1} * 1[p_i = 0] + g_i^{-1} h_i * 1[p_i = 1])^{m_i \xor p_i}) for all i, m_i being the scalars, p_i being the masks, h_i being the symmetric Pedersen bases and g_i the Pedersen bases.

Implementors

impl<P, F, FG> GroupGadget<GroupProjective<P>, F> for snarkvm_wasm::curves::templates::bls12::AffineGadget<P, F, FG> where
    P: SWModelParameters,
    F: PrimeField,
    FG: FieldGadget<<P as ModelParameters>::BaseField, F>, 

impl<P, F, FG> GroupGadget<GroupAffine<P>, F> for snarkvm_wasm::curves::templates::twisted_edwards::AffineGadget<P, F, FG> where
    P: TEModelParameters,
    F: Field,
    FG: FieldGadget<<P as ModelParameters>::BaseField, F>, 

impl<P, F, FG> GroupGadget<GroupProjective<P>, F> for snarkvm_wasm::curves::templates::twisted_edwards::AffineGadget<P, F, FG> where
    P: TEModelParameters,
    F: Field,
    FG: FieldGadget<<P as ModelParameters>::BaseField, F>,