Struct ark_r1cs_std::fields::quadratic_extension::QuadExtVar

impl<BF: FieldVar<P::BaseField, P::BasePrimeField>, P: QuadExtVarConfig<BF>> QuadExtVar<BF, P>where
for<'a> &'a BF: FieldOpsBounds<'a, P::BaseField, BF>,

pub fn new(c0: BF, c1: BF) -> Self

Constructs a QuadExtVar from the underlying coefficients.

pub fn mul_base_field_by_nonresidue(fe: &BF) -> Result<BF, SynthesisError>

Multiplies a variable of the base field by the quadratic nonresidue P::NONRESIDUE that is used to construct the extension field.

pub fn mul_by_base_field_constant(&self, fe: P::BaseField) -> Self

Multiplies self by a constant from the base field.

pub fn mul_assign_by_base_field_constant(&mut self, fe: P::BaseField)

Sets self = self.mul_by_base_field_constant(fe).

pub fn unitary_inverse(&self) -> Result<Self, SynthesisError>

This is only to be used when the element is known to be in the cyclotomic subgroup.

pub fn cyclotomic_exp(
 &self,
 exponent: impl AsRef<[u64]>
) -> Result<Self, SynthesisError>where
 Self: FieldVar<QuadExtField, P::BasePrimeField>,

This is only to be used when the element is known to be in the cyclotomic subgroup.

impl<P: Fp12Config> QuadExtVar<CubicExtVar<QuadExtVar<FpVar<<<::Fp6Config as Fp6Config>::Fp2Config as Fp2Config>::Fp>, Fp2ConfigWrapper<<::Fp6Config as Fp6Config>::Fp2Config>>, Fp6ConfigWrapper<::Fp6Config>>, Fp12ConfigWrapper>

pub fn mul_by_014(
 &self,
 c0: &Fp2Var<<::Fp6Config as Fp6Config>::Fp2Config>,
 c1: &Fp2Var<<::Fp6Config as Fp6Config>::Fp2Config>,
 d1: &Fp2Var<<::Fp6Config as Fp6Config>::Fp2Config>
) -> Result<Self, SynthesisError>

Multiplies by a sparse element of the form (c0 = (c0, c1, 0), c1 = (0, d1, 0)).

pub fn mul_by_034(
 &self,
 c0: &Fp2Var<<::Fp6Config as Fp6Config>::Fp2Config>,
 d0: &Fp2Var<<::Fp6Config as Fp6Config>::Fp2Config>,
 d1: &Fp2Var<<::Fp6Config as Fp6Config>::Fp2Config>
) -> Result<Self, SynthesisError>

Multiplies by a sparse element of the form (c0 = (c0, 0, 0), c1 = (d0, d1, 0)).

pub fn cyclotomic_square(&self) -> Result<Self, SynthesisError>

Squares self when self is in the cyclotomic subgroup.

pub fn optimized_cyclotomic_exp(
&self,
exponent: impl AsRef<[u64]>
) -> Result<Self, SynthesisError>

Like Self::cyclotomic_exp, but additionally uses cyclotomic squaring.

Trait Implementations§

impl<'a, BF: FieldVar<P::BaseField, P::BasePrimeField>, P: QuadExtVarConfig<BF>> Add<&'a QuadExtVar<BF, P>> for &'a QuadExtVar<BF, P>where
for<'b> &'b BF: FieldOpsBounds<'b, P::BaseField, BF>,

type Output = QuadExtVar<BF, P>

The resulting type after applying the + operator.

fn add(self, other: Self) -> Self::Output

Performs the + operation. Read more

impl<'a, BF: FieldVar<P::BaseField, P::BasePrimeField>, P: QuadExtVarConfig<BF>> Add<&'a QuadExtVar<BF, P>> for QuadExtVar<BF, P>where
for<'b> &'b BF: FieldOpsBounds<'b, P::BaseField, BF>,

type Output = QuadExtVar<BF, P>

The resulting type after applying the + operator.

fn add(self, other: &'a QuadExtVar<BF, P>) -> Self::Output

Performs the + operation. Read more

impl<'a, BF: FieldVar<P::BaseField, P::BasePrimeField>, P: QuadExtVarConfig<BF>> Add<QuadExtField> for &'a QuadExtVar<BF, P>where
for<'b> &'b BF: FieldOpsBounds<'b, P::BaseField, BF>,

type Output = QuadExtVar<BF, P>

The resulting type after applying the + operator.

fn add(self, other: QuadExtField) -> Self::Output

Performs the + operation. Read more

impl<BF: FieldVar<P::BaseField, P::BasePrimeField>, P: QuadExtVarConfig<BF>> Add<QuadExtField> for QuadExtVar<BF, P>where
for<'b> &'b BF: FieldOpsBounds<'b, P::BaseField, BF>,

type Output = QuadExtVar<BF, P>

The resulting type after applying the + operator.

fn add(self, other: QuadExtField) -> Self::Output

Performs the + operation. Read more

impl<'a, BF: FieldVar<P::BaseField, P::BasePrimeField>, P: QuadExtVarConfig<BF>> Add<QuadExtVar<BF, P>> for &'a QuadExtVar<BF, P>where
for<'b> &'b BF: FieldOpsBounds<'b, P::BaseField, BF>,

type Output = QuadExtVar<BF, P>

The resulting type after applying the + operator.

fn add(self, other: QuadExtVar<BF, P>) -> Self::Output

Performs the + operation. Read more

impl<BF: FieldVar<P::BaseField, P::BasePrimeField>, P: QuadExtVarConfig<BF>> Add<QuadExtVar<BF, P>> for QuadExtVar<BF, P>where
for<'b> &'b BF: FieldOpsBounds<'b, P::BaseField, BF>,

type Output = QuadExtVar<BF, P>

The resulting type after applying the + operator.

fn add(self, other: QuadExtVar<BF, P>) -> Self::Output

Performs the + operation. Read more

impl<'a, BF: FieldVar<P::BaseField, P::BasePrimeField>, P: QuadExtVarConfig<BF>> AddAssign<&'a QuadExtVar<BF, P>> for QuadExtVar<BF, P>where
for<'b> &'b BF: FieldOpsBounds<'b, P::BaseField, BF>,

fn add_assign(&mut self, other: &'a QuadExtVar<BF, P>)

Performs the += operation. Read more

impl<BF: FieldVar<P::BaseField, P::BasePrimeField>, P: QuadExtVarConfig<BF>> AddAssign<QuadExtField> for QuadExtVar<BF, P>where
for<'b> &'b BF: FieldOpsBounds<'b, P::BaseField, BF>,

fn add_assign(&mut self, other: QuadExtField)

Performs the += operation. Read more

impl<BF: FieldVar<P::BaseField, P::BasePrimeField>, P: QuadExtVarConfig<BF>> AddAssign<QuadExtVar<BF, P>> for QuadExtVar<BF, P>where
for<'b> &'b BF: FieldOpsBounds<'b, P::BaseField, BF>,

fn add_assign(&mut self, other: QuadExtVar<BF, P>)

Performs the += operation. Read more

impl<BF, P> AllocVar<QuadExtField, ::BasePrimeField> for QuadExtVar<BF, P>where
 BF: FieldVar<P::BaseField, P::BasePrimeField>,
 for<'b> &'b BF: FieldOpsBounds<'b, P::BaseField, BF>,
 P: QuadExtVarConfig<BF>,

fn new_variable<T: Borrow<QuadExtField>>(
 cs: impl Into<Namespace<P::BasePrimeField>>,
 f: impl FnOnce() -> Result<T, SynthesisError>,
 mode: AllocationMode
) -> Result<Self, SynthesisError>

Allocates a new variable of type Self in the ConstraintSystem cs. The mode of allocation is decided by mode.

fn new_constant(
cs: impl Into<Namespace<F>>,
t: impl Borrow<V>
) -> Result<Self, SynthesisError>

Allocates a new constant of type Self in the ConstraintSystem cs. Read more

fn new_input<T: Borrow<V>>(
cs: impl Into<Namespace<F>>,
f: impl FnOnce() -> Result<T, SynthesisError>
) -> Result<Self, SynthesisError>

Allocates a new public input of type Self in the ConstraintSystem cs.

fn new_witness<T: Borrow<V>>(
cs: impl Into<Namespace<F>>,
f: impl FnOnce() -> Result<T, SynthesisError>
) -> Result<Self, SynthesisError>

Allocates a new private witness of type Self in the ConstraintSystem cs.

impl<BF, P: QuadExtVarConfig<BF>> Clone for QuadExtVar<BF, P>where
for<'a> &'a BF: FieldOpsBounds<'a, P::BaseField, BF>,
BF: Clone + FieldVar<P::BaseField, P::BasePrimeField>,

fn clone(&self) -> Self

Returns a copy of the value. Read more

1.0.0 · source§

fn clone_from(&mut self, source: &Self)

Performs copy-assignment from source. Read more

impl<BF, P> CondSelectGadget<::BasePrimeField> for QuadExtVar<BF, P>where
 BF: FieldVar<P::BaseField, P::BasePrimeField>,
 for<'b> &'b BF: FieldOpsBounds<'b, P::BaseField, BF>,
 P: QuadExtVarConfig<BF>,

fn conditionally_select(
 cond: &Boolean<P::BasePrimeField>,
 true_value: &Self,
 false_value: &Self
) -> Result<Self, SynthesisError>

If cond == &Boolean::TRUE, then this returns true_value; else, returns false_value. Read more

fn conditionally_select_power_of_two_vector(
position: &[Boolean<ConstraintF>],
values: &[Self]
) -> Result<Self, SynthesisError>

Returns an element of values whose index in represented by position. position is an array of boolean that represents an unsigned integer in big endian order. Read more

impl<P: Fp6Config> CubicExtVarConfig<QuadExtVar<FpVar<<::Fp2Config as Fp2Config>::Fp>, Fp2ConfigWrapper<::Fp2Config>>> for Fp6ConfigWrapper

fn mul_base_field_vars_by_frob_coeff(
 c1: &mut Fp2Var<P::Fp2Config>,
 c2: &mut Fp2Var<P::Fp2Config>,
 power: usize
)

Multiply the base field of the CubicExtVar by the appropriate Frobenius coefficient. This is equivalent to Self::mul_base_field_by_frob_coeff(c1, c2, power).

impl<BF, P: QuadExtVarConfig<BF>> Debug for QuadExtVar<BF, P>where
for<'a> &'a BF: FieldOpsBounds<'a, P::BaseField, BF>,
BF: Debug + FieldVar<P::BaseField, P::BasePrimeField>,

fn fmt(&self, __f: &mut Formatter<'_>) -> Result

Formats the value using the given formatter. Read more

impl<BF, P> EqGadget<::BasePrimeField> for QuadExtVar<BF, P>where
 BF: FieldVar<P::BaseField, P::BasePrimeField>,
 for<'b> &'b BF: FieldOpsBounds<'b, P::BaseField, BF>,
 P: QuadExtVarConfig<BF>,

fn is_eq(
&self,
other: &Self
) -> Result<Boolean<P::BasePrimeField>, SynthesisError>

Output a Boolean value representing whether self.value() == other.value().

fn conditional_enforce_equal(
 &self,
 other: &Self,
 condition: &Boolean<P::BasePrimeField>
) -> Result<(), SynthesisError>

If should_enforce == true, enforce that self and other are equal; else, enforce a vacuously true statement. Read more

fn conditional_enforce_not_equal(
 &self,
 other: &Self,
 condition: &Boolean<P::BasePrimeField>
) -> Result<(), SynthesisError>

If should_enforce == true, enforce that self and other are not equal; else, enforce a vacuously true statement. Read more

fn is_neq(&self, other: &Self) -> Result<Boolean<F>, SynthesisError>

Output a Boolean value representing whether self.value() != other.value(). Read more

fn enforce_equal(&self, other: &Self) -> Result<(), SynthesisError>

Enforce that self and other are equal. Read more

fn enforce_not_equal(&self, other: &Self) -> Result<(), SynthesisError>

Enforce that self and other are not equal. Read more

impl<BF, P> FieldVar<QuadExtField, ::BasePrimeField> for QuadExtVar<BF, P>where
 BF: FieldVar<P::BaseField, P::BasePrimeField>,
 for<'a> &'a BF: FieldOpsBounds<'a, P::BaseField, BF>,
 P: QuadExtVarConfig<BF>,

fn constant(other: QuadExtField) -> Self

Returns a constant with value v. Read more

fn zero() -> Self

Returns the constant F::zero().

fn one() -> Self

Returns the constant F::one().

fn double(&self) -> Result<Self, SynthesisError>

Computes self + self.

fn negate(&self) -> Result<Self, SynthesisError>

Coputes -self.

fn square(&self) -> Result<Self, SynthesisError>

Computes self * self. Read more

fn mul_equals(&self, other: &Self, result: &Self) -> Result<(), SynthesisError>

Enforces that self * other == result.

fn frobenius_map(&self, power: usize) -> Result<Self, SynthesisError>

Computes the frobenius map over self.

fn inverse(&self) -> Result<Self, SynthesisError>

Computes result such that self * result == Self::one().

fn is_zero(&self) -> Result<Boolean<ConstraintF>, SynthesisError>

Returns a Boolean representing whether self == Self::zero().

fn is_one(&self) -> Result<Boolean<ConstraintF>, SynthesisError>

Returns a Boolean representing whether self == Self::one().

fn double_in_place(&mut self) -> Result<&mut Self, SynthesisError>

Sets self = self + self.

fn negate_in_place(&mut self) -> Result<&mut Self, SynthesisError>

Sets self = -self.

fn square_in_place(&mut self) -> Result<&mut Self, SynthesisError>

Sets self = self.square().

fn square_equals(&self, result: &Self) -> Result<(), SynthesisError>

Enforces that self * self == result.

fn mul_by_inverse(&self, d: &Self) -> Result<Self, SynthesisError>

Returns (self / d). The constraint system will be unsatisfiable when d = 0.

fn mul_by_inverse_unchecked(&self, d: &Self) -> Result<Self, SynthesisError>

Returns (self / d). Read more

fn frobenius_map_in_place(
&mut self,
power: usize
) -> Result<&mut Self, SynthesisError>

Sets self = self.frobenius_map().

fn pow_le(&self, bits: &[Boolean<ConstraintF>]) -> Result<Self, SynthesisError>

Comptues self^bits, where bits is a little-endian bit-wise decomposition of the exponent.

fn pow_by_constant<S: AsRef<[u64]>>(
&self,
exp: S
) -> Result<Self, SynthesisError>

Computes self^S, where S is interpreted as an little-endian u64-decomposition of an integer.

impl<BF, P> From<Boolean<::BasePrimeField>> for QuadExtVar<BF, P>where
 BF: FieldVar<P::BaseField, P::BasePrimeField>,
 for<'a> &'a BF: FieldOpsBounds<'a, P::BaseField, BF>,
 P: QuadExtVarConfig<BF>,

fn from(other: Boolean<P::BasePrimeField>) -> Self

Converts to this type from the input type.

impl<'a, BF: FieldVar<P::BaseField, P::BasePrimeField>, P: QuadExtVarConfig<BF>> Mul<&'a QuadExtVar<BF, P>> for &'a QuadExtVar<BF, P>where
for<'b> &'b BF: FieldOpsBounds<'b, P::BaseField, BF>,

type Output = QuadExtVar<BF, P>

The resulting type after applying the * operator.

fn mul(self, other: Self) -> Self::Output

Performs the * operation. Read more

impl<'a, BF: FieldVar<P::BaseField, P::BasePrimeField>, P: QuadExtVarConfig<BF>> Mul<&'a QuadExtVar<BF, P>> for QuadExtVar<BF, P>where
for<'b> &'b BF: FieldOpsBounds<'b, P::BaseField, BF>,

type Output = QuadExtVar<BF, P>

The resulting type after applying the * operator.

fn mul(self, other: &'a QuadExtVar<BF, P>) -> Self::Output

Performs the * operation. Read more

impl<'a, BF: FieldVar<P::BaseField, P::BasePrimeField>, P: QuadExtVarConfig<BF>> Mul<QuadExtField> for &'a QuadExtVar<BF, P>where
for<'b> &'b BF: FieldOpsBounds<'b, P::BaseField, BF>,

type Output = QuadExtVar<BF, P>

The resulting type after applying the * operator.

fn mul(self, other: QuadExtField) -> Self::Output

Performs the * operation. Read more

impl<BF: FieldVar<P::BaseField, P::BasePrimeField>, P: QuadExtVarConfig<BF>> Mul<QuadExtField> for QuadExtVar<BF, P>where
for<'b> &'b BF: FieldOpsBounds<'b, P::BaseField, BF>,

type Output = QuadExtVar<BF, P>

The resulting type after applying the * operator.

fn mul(self, other: QuadExtField) -> Self::Output

Performs the * operation. Read more

impl<'a, BF: FieldVar<P::BaseField, P::BasePrimeField>, P: QuadExtVarConfig<BF>> Mul<QuadExtVar<BF, P>> for &'a QuadExtVar<BF, P>where
for<'b> &'b BF: FieldOpsBounds<'b, P::BaseField, BF>,

type Output = QuadExtVar<BF, P>

The resulting type after applying the * operator.

fn mul(self, other: QuadExtVar<BF, P>) -> Self::Output

Performs the * operation. Read more

impl<BF: FieldVar<P::BaseField, P::BasePrimeField>, P: QuadExtVarConfig<BF>> Mul<QuadExtVar<BF, P>> for QuadExtVar<BF, P>where
for<'b> &'b BF: FieldOpsBounds<'b, P::BaseField, BF>,

type Output = QuadExtVar<BF, P>

The resulting type after applying the * operator.

fn mul(self, other: QuadExtVar<BF, P>) -> Self::Output

Performs the * operation. Read more

impl<'a, BF: FieldVar<P::BaseField, P::BasePrimeField>, P: QuadExtVarConfig<BF>> MulAssign<&'a QuadExtVar<BF, P>> for QuadExtVar<BF, P>where
for<'b> &'b BF: FieldOpsBounds<'b, P::BaseField, BF>,

fn mul_assign(&mut self, other: &'a QuadExtVar<BF, P>)

Performs the *= operation. Read more

impl<BF: FieldVar<P::BaseField, P::BasePrimeField>, P: QuadExtVarConfig<BF>> MulAssign<QuadExtField> for QuadExtVar<BF, P>where
for<'b> &'b BF: FieldOpsBounds<'b, P::BaseField, BF>,

fn mul_assign(&mut self, other: QuadExtField)

Performs the *= operation. Read more

impl<BF: FieldVar<P::BaseField, P::BasePrimeField>, P: QuadExtVarConfig<BF>> MulAssign<QuadExtVar<BF, P>> for QuadExtVar<BF, P>where
for<'b> &'b BF: FieldOpsBounds<'b, P::BaseField, BF>,

fn mul_assign(&mut self, other: QuadExtVar<BF, P>)

Performs the *= operation. Read more

impl<P: Fp4Config> QuadExtVarConfig<QuadExtVar<FpVar<<::Fp2Config as Fp2Config>::Fp>, Fp2ConfigWrapper<::Fp2Config>>> for Fp4ConfigWrapper

fn mul_base_field_var_by_frob_coeff(fe: &mut Fp2Var<P::Fp2Config>, power: usize)

Multiply the base field of the QuadExtVar by the appropriate Frobenius coefficient. This is equivalent to Self::mul_base_field_by_frob_coeff(power).

impl<BF, P> R1CSVar<::BasePrimeField> for QuadExtVar<BF, P>where
 BF: FieldVar<P::BaseField, P::BasePrimeField>,
 for<'a> &'a BF: FieldOpsBounds<'a, P::BaseField, BF>,
 P: QuadExtVarConfig<BF>,

type Value = QuadExtField

The type of the “native” value that Self represents in the constraint system.

fn cs(&self) -> ConstraintSystemRef<P::BasePrimeField>

Returns the underlying ConstraintSystemRef. Read more

fn value(&self) -> Result<Self::Value, SynthesisError>

Returns the value that is assigned to self in the underlying ConstraintSystem.

fn is_constant(&self) -> bool

Returns true if self is a circuit-generation-time constant.

impl<'a, BF: FieldVar<P::BaseField, P::BasePrimeField>, P: QuadExtVarConfig<BF>> Sub<&'a QuadExtVar<BF, P>> for &'a QuadExtVar<BF, P>where
for<'b> &'b BF: FieldOpsBounds<'b, P::BaseField, BF>,

type Output = QuadExtVar<BF, P>

The resulting type after applying the - operator.

fn sub(self, other: Self) -> Self::Output

Performs the - operation. Read more

impl<'a, BF: FieldVar<P::BaseField, P::BasePrimeField>, P: QuadExtVarConfig<BF>> Sub<&'a QuadExtVar<BF, P>> for QuadExtVar<BF, P>where
for<'b> &'b BF: FieldOpsBounds<'b, P::BaseField, BF>,

type Output = QuadExtVar<BF, P>

The resulting type after applying the - operator.

fn sub(self, other: &'a QuadExtVar<BF, P>) -> Self::Output

Performs the - operation. Read more

impl<'a, BF: FieldVar<P::BaseField, P::BasePrimeField>, P: QuadExtVarConfig<BF>> Sub<QuadExtField> for &'a QuadExtVar<BF, P>where
for<'b> &'b BF: FieldOpsBounds<'b, P::BaseField, BF>,

type Output = QuadExtVar<BF, P>

The resulting type after applying the - operator.

fn sub(self, other: QuadExtField) -> Self::Output

Performs the - operation. Read more

impl<BF: FieldVar<P::BaseField, P::BasePrimeField>, P: QuadExtVarConfig<BF>> Sub<QuadExtField> for QuadExtVar<BF, P>where
for<'b> &'b BF: FieldOpsBounds<'b, P::BaseField, BF>,

type Output = QuadExtVar<BF, P>

The resulting type after applying the - operator.

fn sub(self, other: QuadExtField) -> Self::Output

Performs the - operation. Read more

impl<'a, BF: FieldVar<P::BaseField, P::BasePrimeField>, P: QuadExtVarConfig<BF>> Sub<QuadExtVar<BF, P>> for &'a QuadExtVar<BF, P>where
for<'b> &'b BF: FieldOpsBounds<'b, P::BaseField, BF>,

type Output = QuadExtVar<BF, P>

The resulting type after applying the - operator.

fn sub(self, other: QuadExtVar<BF, P>) -> Self::Output

Performs the - operation. Read more

impl<BF: FieldVar<P::BaseField, P::BasePrimeField>, P: QuadExtVarConfig<BF>> Sub<QuadExtVar<BF, P>> for QuadExtVar<BF, P>where
for<'b> &'b BF: FieldOpsBounds<'b, P::BaseField, BF>,

type Output = QuadExtVar<BF, P>

The resulting type after applying the - operator.

fn sub(self, other: QuadExtVar<BF, P>) -> Self::Output

Performs the - operation. Read more

impl<'a, BF: FieldVar<P::BaseField, P::BasePrimeField>, P: QuadExtVarConfig<BF>> SubAssign<&'a QuadExtVar<BF, P>> for QuadExtVar<BF, P>where
for<'b> &'b BF: FieldOpsBounds<'b, P::BaseField, BF>,

fn sub_assign(&mut self, other: &'a QuadExtVar<BF, P>)

Performs the -= operation. Read more

impl<BF: FieldVar<P::BaseField, P::BasePrimeField>, P: QuadExtVarConfig<BF>> SubAssign<QuadExtField> for QuadExtVar<BF, P>where
for<'b> &'b BF: FieldOpsBounds<'b, P::BaseField, BF>,

fn sub_assign(&mut self, other: QuadExtField)

Performs the -= operation. Read more

impl<BF: FieldVar<P::BaseField, P::BasePrimeField>, P: QuadExtVarConfig<BF>> SubAssign<QuadExtVar<BF, P>> for QuadExtVar<BF, P>where
for<'b> &'b BF: FieldOpsBounds<'b, P::BaseField, BF>,

fn sub_assign(&mut self, other: QuadExtVar<BF, P>)

Performs the -= operation. Read more

impl<BF, P> ThreeBitCondNegLookupGadget<::BasePrimeField> for QuadExtVar<BF, P>where
 BF: FieldVar<P::BaseField, P::BasePrimeField> + ThreeBitCondNegLookupGadget<P::BasePrimeField, TableConstant = P::BaseField>,
 for<'b> &'b BF: FieldOpsBounds<'b, P::BaseField, BF>,
 P: QuadExtVarConfig<BF>,

type TableConstant = QuadExtField

The type of values being looked up.

fn three_bit_cond_neg_lookup(
 b: &[Boolean<P::BasePrimeField>],
 b0b1: &Boolean<P::BasePrimeField>,
 c: &[Self::TableConstant]
) -> Result<Self, SynthesisError>

Interprets the slice bits as a two-bit integer b = bits[0] + (bits[1] << 1), and then outputs constants[b] * c, where c = if bits[2] { -1 } else { 1 };. Read more

impl<BF, P> ToBitsGadget<::BasePrimeField> for QuadExtVar<BF, P>where
 BF: FieldVar<P::BaseField, P::BasePrimeField>,
 for<'b> &'b BF: FieldOpsBounds<'b, P::BaseField, BF>,
 P: QuadExtVarConfig<BF>,

fn to_bits_le(&self) -> Result<Vec<Boolean<P::BasePrimeField>>, SynthesisError>

Outputs the canonical little-endian bit-wise representation of self. Read more

fn to_non_unique_bits_le(
&self
) -> Result<Vec<Boolean<P::BasePrimeField>>, SynthesisError>

Outputs a possibly non-unique little-endian bit-wise representation of self. Read more

fn to_bits_be(&self) -> Result<Vec<Boolean<F>>, SynthesisError>

Outputs the canonical big-endian bit-wise representation of self.

fn to_non_unique_bits_be(&self) -> Result<Vec<Boolean<F>>, SynthesisError>

Outputs a possibly non-unique big-endian bit-wise representation of self.

impl<BF, P> ToBytesGadget<::BasePrimeField> for QuadExtVar<BF, P>where
 BF: FieldVar<P::BaseField, P::BasePrimeField>,
 for<'b> &'b BF: FieldOpsBounds<'b, P::BaseField, BF>,
 P: QuadExtVarConfig<BF>,

fn to_bytes(&self) -> Result<Vec<UInt8<P::BasePrimeField>>, SynthesisError>

Outputs a canonical, little-endian, byte decomposition of self. Read more

fn to_non_unique_bytes(
&self
) -> Result<Vec<UInt8<P::BasePrimeField>>, SynthesisError>

Outputs a possibly non-unique byte decomposition of self. Read more

impl<BF, P> ToConstraintFieldGadget<::BasePrimeField> for QuadExtVar<BF, P>where
 BF: FieldVar<P::BaseField, P::BasePrimeField> + ToConstraintFieldGadget<P::BasePrimeField>,
 for<'a> &'a BF: FieldOpsBounds<'a, P::BaseField, BF>,
 P: QuadExtVarConfig<BF>,

fn to_constraint_field(
&self
) -> Result<Vec<FpVar<P::BasePrimeField>>, SynthesisError>

Converts self to FpVar<ConstraintF> variables.

impl<BF, P> TwoBitLookupGadget<::BasePrimeField> for QuadExtVar<BF, P>where
 BF: FieldVar<P::BaseField, P::BasePrimeField> + TwoBitLookupGadget<P::BasePrimeField, TableConstant = P::BaseField>,
 for<'b> &'b BF: FieldOpsBounds<'b, P::BaseField, BF>,
 P: QuadExtVarConfig<BF>,

type TableConstant = QuadExtField

The type of values being looked up.

fn two_bit_lookup(
b: &[Boolean<P::BasePrimeField>],
c: &[Self::TableConstant]
) -> Result<Self, SynthesisError>

Interprets the slice bits as a two-bit integer b = bits[0] + (bits[1] << 1), and then outputs constants[b]. Read more

impl<'a, BF, P> FieldOpsBounds<'a, QuadExtField, QuadExtVar<BF, P>> for &'a QuadExtVar<BF, P>where
 BF: FieldVar<P::BaseField, P::BasePrimeField>,
 for<'b> &'b BF: FieldOpsBounds<'b, P::BaseField, BF>,
 P: QuadExtVarConfig<BF>,

impl<'a, BF, P> FieldOpsBounds<'a, QuadExtField, QuadExtVar<BF, P>> for QuadExtVar<BF, P>where
 BF: FieldVar<P::BaseField, P::BasePrimeField>,
 for<'b> &'b BF: FieldOpsBounds<'b, P::BaseField, BF>,
 P: QuadExtVarConfig<BF>,

Auto Trait Implementations§

impl<BF, P> RefUnwindSafe for QuadExtVar<BF, P>where
BF: RefUnwindSafe,
P: RefUnwindSafe,

impl<BF, P> UnwindSafe for QuadExtVar<BF, P>where
BF: UnwindSafe,
P: UnwindSafe,

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impl<T> Any for Twhere
T: 'static + ?Sized,

fn type_id(&self) -> TypeId

Gets the TypeId of self. Read more

impl<T> Borrow<T> for Twhere
T: ?Sized,

const: unstable · source§

fn borrow(&self) -> &T

Immutably borrows from an owned value. Read more

impl<T> BorrowMut<T> for Twhere
T: ?Sized,

const: unstable · source§

fn borrow_mut(&mut self) -> &mut T

Mutably borrows from an owned value. Read more

impl<T> From<T> for T

const: unstable · source§

fn from(t: T) -> T

Returns the argument unchanged.

impl<T> Instrument for T

fn instrument(self, span: Span) -> Instrumented<Self>

Instruments this type with the provided Span, returning an Instrumented wrapper. Read more

fn in_current_span(self) -> Instrumented<Self>

Instruments this type with the current Span, returning an Instrumented wrapper. Read more

impl<T, U> Into for Twhere
U: From<T>,

const: unstable · source§

fn into(self) -> U

Calls U::from(self).

That is, this conversion is whatever the implementation of From<T> for U chooses to do.

impl<T> Same<T> for T

type Output = T

Should always be Self

impl<T> ToOwned for Twhere
T: Clone,

type Owned = T

The resulting type after obtaining ownership.

fn to_owned(&self) -> T

Creates owned data from borrowed data, usually by cloning. Read more

fn clone_into(&self, target: &mut T)

Uses borrowed data to replace owned data, usually by cloning. Read more

impl<T, U> TryFrom for Twhere
U: Into<T>,

type Error = Infallible

The type returned in the event of a conversion error.

const: unstable · source§

fn try_from(value: U) -> Result<T, <T as TryFrom>::Error>

Performs the conversion.

impl<T, U> TryInto for Twhere
U: TryFrom<T>,

type Error = >::Error

The type returned in the event of a conversion error.

const: unstable · source§

fn try_into(self) -> Result<U, >::Error>

Performs the conversion.

impl<V, T> VZip<V> for Twhere
V: MultiLane<T>,

fn vzip(self) -> V

impl<T> WithSubscriber for T

fn with_subscriber<S>(self, subscriber: S) -> WithDispatch<Self>where
S: Into<Dispatch>,

Attaches the provided Subscriber to this type, returning a WithDispatch wrapper. Read more