spirix 0.0.12

use crate::core::integer::{FullInt, Integer};
use crate::{
    Circle, CircleConstants, ExponentConstants, FractionConstants, Scalar, ScalarConstants,
};
use i256::I256;
use num_traits::{AsPrimitive, WrappingAdd, WrappingMul, WrappingNeg, WrappingSub};
use core::ops::*;

impl<
        F: Integer
            + FractionConstants
            + FullInt
            + Shl<isize, Output = F>
            + Shr<isize, Output = F>
            + Shl<F, Output = F>
            + Shr<F, Output = F>
            + Shl<E, Output = F>
            + Shr<E, Output = F>
            + WrappingNeg
            + WrappingAdd
            + WrappingMul
            + WrappingSub,
        E: Integer
            + ExponentConstants
            + FullInt
            + Shl<isize, Output = E>
            + Shr<isize, Output = E>
            + Shl<E, Output = E>
            + Shr<E, Output = E>
            + Shl<F, Output = E>
            + Shr<F, Output = E>
            + WrappingNeg
            + WrappingAdd
            + WrappingMul
            + WrappingSub,
    > Neg for &Scalar<F, E>
where
    Scalar<F, E>: ScalarConstants,
    u8: AsPrimitive<F>,
    u16: AsPrimitive<F>,
    u32: AsPrimitive<F>,
    u64: AsPrimitive<F>,
    u128: AsPrimitive<F>,
    usize: AsPrimitive<F>,
    i8: AsPrimitive<F>,
    i16: AsPrimitive<F>,
    i32: AsPrimitive<F>,
    i64: AsPrimitive<F>,
    i128: AsPrimitive<F>,
    isize: AsPrimitive<F>,
    I256: From<F>,
    u8: AsPrimitive<E>,
    u16: AsPrimitive<E>,
    u32: AsPrimitive<E>,
    u64: AsPrimitive<E>,
    u128: AsPrimitive<E>,
    usize: AsPrimitive<E>,
    i8: AsPrimitive<E>,
    i16: AsPrimitive<E>,
    i32: AsPrimitive<E>,
    i64: AsPrimitive<E>,
    i128: AsPrimitive<E>,
    isize: AsPrimitive<E>,
    I256: From<E>,
{
    type Output = Scalar<F, E>;

    fn neg(self) -> Self::Output {
        let mut result = *self;
        result.scalar_negate();
        result
    }
}

impl<
        F: Integer
            + FractionConstants
            + FullInt
            + Shl<isize, Output = F>
            + Shr<isize, Output = F>
            + Shl<F, Output = F>
            + Shr<F, Output = F>
            + Shl<E, Output = F>
            + Shr<E, Output = F>
            + WrappingNeg
            + WrappingAdd
            + WrappingMul
            + WrappingSub,
        E: Integer
            + ExponentConstants
            + FullInt
            + Shl<isize, Output = E>
            + Shr<isize, Output = E>
            + Shl<E, Output = E>
            + Shr<E, Output = E>
            + Shl<F, Output = E>
            + Shr<F, Output = E>
            + WrappingNeg
            + WrappingAdd
            + WrappingMul
            + WrappingSub,
    > Neg for &mut Scalar<F, E>
where
    Scalar<F, E>: ScalarConstants,
    u8: AsPrimitive<F>,
    u16: AsPrimitive<F>,
    u32: AsPrimitive<F>,
    u64: AsPrimitive<F>,
    u128: AsPrimitive<F>,
    usize: AsPrimitive<F>,
    i8: AsPrimitive<F>,
    i16: AsPrimitive<F>,
    i32: AsPrimitive<F>,
    i64: AsPrimitive<F>,
    i128: AsPrimitive<F>,
    isize: AsPrimitive<F>,
    I256: From<F>,
    u8: AsPrimitive<E>,
    u16: AsPrimitive<E>,
    u32: AsPrimitive<E>,
    u64: AsPrimitive<E>,
    u128: AsPrimitive<E>,
    usize: AsPrimitive<E>,
    i8: AsPrimitive<E>,
    i16: AsPrimitive<E>,
    i32: AsPrimitive<E>,
    i64: AsPrimitive<E>,
    i128: AsPrimitive<E>,
    isize: AsPrimitive<E>,
    I256: From<E>,
{
    type Output = Scalar<F, E>;

    fn neg(self) -> Self::Output {
        let mut result = *self;
        result.scalar_negate();
        result
    }
}

impl<
        F: Integer
            + FractionConstants
            + FullInt
            + Shl<isize, Output = F>
            + Shr<isize, Output = F>
            + Shl<F, Output = F>
            + Shr<F, Output = F>
            + Shl<E, Output = F>
            + Shr<E, Output = F>
            + WrappingNeg
            + WrappingAdd
            + WrappingMul
            + WrappingSub,
        E: Integer
            + ExponentConstants
            + FullInt
            + Shl<isize, Output = E>
            + Shr<isize, Output = E>
            + Shl<E, Output = E>
            + Shr<E, Output = E>
            + Shl<F, Output = E>
            + Shr<F, Output = E>
            + WrappingNeg
            + WrappingAdd
            + WrappingMul
            + WrappingSub,
    > Neg for Scalar<F, E>
where
    Scalar<F, E>: ScalarConstants,
    u8: AsPrimitive<F>,
    u16: AsPrimitive<F>,
    u32: AsPrimitive<F>,
    u64: AsPrimitive<F>,
    u128: AsPrimitive<F>,
    usize: AsPrimitive<F>,
    i8: AsPrimitive<F>,
    i16: AsPrimitive<F>,
    i32: AsPrimitive<F>,
    i64: AsPrimitive<F>,
    i128: AsPrimitive<F>,
    isize: AsPrimitive<F>,
    I256: From<F>,
    u8: AsPrimitive<E>,
    u16: AsPrimitive<E>,
    u32: AsPrimitive<E>,
    u64: AsPrimitive<E>,
    u128: AsPrimitive<E>,
    usize: AsPrimitive<E>,
    i8: AsPrimitive<E>,
    i16: AsPrimitive<E>,
    i32: AsPrimitive<E>,
    i64: AsPrimitive<E>,
    i128: AsPrimitive<E>,
    isize: AsPrimitive<E>,
    I256: From<E>,
{
    type Output = Scalar<F, E>;

    fn neg(self) -> Self::Output {
        let mut result = self;
        result.scalar_negate();
        result
    }
}

impl<
        F: Integer
            + FractionConstants
            + FullInt
            + Shl<isize, Output = F>
            + Shr<isize, Output = F>
            + Shl<F, Output = F>
            + Shr<F, Output = F>
            + Shl<E, Output = F>
            + Shr<E, Output = F>
            + WrappingNeg
            + WrappingAdd
            + WrappingMul
            + WrappingSub,
        E: Integer
            + ExponentConstants
            + FullInt
            + Shl<isize, Output = E>
            + Shr<isize, Output = E>
            + Shl<E, Output = E>
            + Shr<E, Output = E>
            + Shl<F, Output = E>
            + Shr<F, Output = E>
            + WrappingNeg
            + WrappingAdd
            + WrappingMul
            + WrappingSub,
    > Not for &Scalar<F, E>
where
    Scalar<F, E>: ScalarConstants,
    u8: AsPrimitive<F>,
    u16: AsPrimitive<F>,
    u32: AsPrimitive<F>,
    u64: AsPrimitive<F>,
    u128: AsPrimitive<F>,
    usize: AsPrimitive<F>,
    i8: AsPrimitive<F>,
    i16: AsPrimitive<F>,
    i32: AsPrimitive<F>,
    i64: AsPrimitive<F>,
    i128: AsPrimitive<F>,
    isize: AsPrimitive<F>,
    I256: From<F>,
    u8: AsPrimitive<E>,
    u16: AsPrimitive<E>,
    u32: AsPrimitive<E>,
    u64: AsPrimitive<E>,
    u128: AsPrimitive<E>,
    usize: AsPrimitive<E>,
    i8: AsPrimitive<E>,
    i16: AsPrimitive<E>,
    i32: AsPrimitive<E>,
    i64: AsPrimitive<E>,
    i128: AsPrimitive<E>,
    isize: AsPrimitive<E>,
    I256: From<E>,
{
    type Output = Scalar<F, E>;

    fn not(self) -> Self::Output {
        self.not_scalar()
    }
}

impl<
        F: Integer
            + FractionConstants
            + FullInt
            + Shl<isize, Output = F>
            + Shr<isize, Output = F>
            + Shl<F, Output = F>
            + Shr<F, Output = F>
            + Shl<E, Output = F>
            + Shr<E, Output = F>
            + WrappingNeg
            + WrappingAdd
            + WrappingMul
            + WrappingSub,
        E: Integer
            + ExponentConstants
            + FullInt
            + Shl<isize, Output = E>
            + Shr<isize, Output = E>
            + Shl<E, Output = E>
            + Shr<E, Output = E>
            + Shl<F, Output = E>
            + Shr<F, Output = E>
            + WrappingNeg
            + WrappingAdd
            + WrappingMul
            + WrappingSub,
    > Not for &mut Scalar<F, E>
where
    Scalar<F, E>: ScalarConstants,
    u8: AsPrimitive<F>,
    u16: AsPrimitive<F>,
    u32: AsPrimitive<F>,
    u64: AsPrimitive<F>,
    u128: AsPrimitive<F>,
    usize: AsPrimitive<F>,
    i8: AsPrimitive<F>,
    i16: AsPrimitive<F>,
    i32: AsPrimitive<F>,
    i64: AsPrimitive<F>,
    i128: AsPrimitive<F>,
    isize: AsPrimitive<F>,
    I256: From<F>,
    u8: AsPrimitive<E>,
    u16: AsPrimitive<E>,
    u32: AsPrimitive<E>,
    u64: AsPrimitive<E>,
    u128: AsPrimitive<E>,
    usize: AsPrimitive<E>,
    i8: AsPrimitive<E>,
    i16: AsPrimitive<E>,
    i32: AsPrimitive<E>,
    i64: AsPrimitive<E>,
    i128: AsPrimitive<E>,
    isize: AsPrimitive<E>,
    I256: From<E>,
{
    type Output = Scalar<F, E>;

    fn not(self) -> Self::Output {
        self.not_scalar()
    }
}

impl<
        F: Integer
            + FractionConstants
            + FullInt
            + Shl<isize, Output = F>
            + Shr<isize, Output = F>
            + Shl<F, Output = F>
            + Shr<F, Output = F>
            + Shl<E, Output = F>
            + Shr<E, Output = F>
            + WrappingNeg
            + WrappingAdd
            + WrappingMul
            + WrappingSub,
        E: Integer
            + ExponentConstants
            + FullInt
            + Shl<isize, Output = E>
            + Shr<isize, Output = E>
            + Shl<E, Output = E>
            + Shr<E, Output = E>
            + Shl<F, Output = E>
            + Shr<F, Output = E>
            + WrappingNeg
            + WrappingAdd
            + WrappingMul
            + WrappingSub,
    > Not for Scalar<F, E>
where
    Scalar<F, E>: ScalarConstants,
    u8: AsPrimitive<F>,
    u16: AsPrimitive<F>,
    u32: AsPrimitive<F>,
    u64: AsPrimitive<F>,
    u128: AsPrimitive<F>,
    usize: AsPrimitive<F>,
    i8: AsPrimitive<F>,
    i16: AsPrimitive<F>,
    i32: AsPrimitive<F>,
    i64: AsPrimitive<F>,
    i128: AsPrimitive<F>,
    isize: AsPrimitive<F>,
    I256: From<F>,
    u8: AsPrimitive<E>,
    u16: AsPrimitive<E>,
    u32: AsPrimitive<E>,
    u64: AsPrimitive<E>,
    u128: AsPrimitive<E>,
    usize: AsPrimitive<E>,
    i8: AsPrimitive<E>,
    i16: AsPrimitive<E>,
    i32: AsPrimitive<E>,
    i64: AsPrimitive<E>,
    i128: AsPrimitive<E>,
    isize: AsPrimitive<E>,
    I256: From<E>,
{
    type Output = Scalar<F, E>;

    fn not(self) -> Self::Output {
        self.not_scalar()
    }
}

#[allow(private_bounds)]
impl<
        F: Integer
            + FractionConstants
            + FullInt
            + Shl<isize, Output = F>
            + Shr<isize, Output = F>
            + Shl<F, Output = F>
            + Shr<F, Output = F>
            + Shl<E, Output = F>
            + Shr<E, Output = F>
            + WrappingNeg
            + WrappingAdd
            + WrappingMul
            + WrappingSub,
        E: Integer
            + ExponentConstants
            + FullInt
            + Shl<isize, Output = E>
            + Shr<isize, Output = E>
            + Shl<E, Output = E>
            + Shr<E, Output = E>
            + Shl<F, Output = E>
            + Shr<F, Output = E>
            + WrappingNeg
            + WrappingAdd
            + WrappingMul
            + WrappingSub,
    > Scalar<F, E>
where
    Circle<F, E>: CircleConstants,
    Scalar<F, E>: ScalarConstants,
    u8: AsPrimitive<F>,
    u16: AsPrimitive<F>,
    u32: AsPrimitive<F>,
    u64: AsPrimitive<F>,
    u128: AsPrimitive<F>,
    usize: AsPrimitive<F>,
    i8: AsPrimitive<F>,
    i16: AsPrimitive<F>,
    i32: AsPrimitive<F>,
    i64: AsPrimitive<F>,
    i128: AsPrimitive<F>,
    isize: AsPrimitive<F>,
    I256: From<F>,
    u8: AsPrimitive<E>,
    u16: AsPrimitive<E>,
    u32: AsPrimitive<E>,
    u64: AsPrimitive<E>,
    u128: AsPrimitive<E>,
    usize: AsPrimitive<E>,
    i8: AsPrimitive<E>,
    i16: AsPrimitive<E>,
    i32: AsPrimitive<E>,
    i64: AsPrimitive<E>,
    i128: AsPrimitive<E>,
    isize: AsPrimitive<E>,
    I256: From<E>,
{
    pub fn pow<N>(&self, rhs: N) -> Self
    where
        Self: crate::operators::Power<N, Output = Self>,
    {
        crate::operators::Power::pow(self, rhs)
    }
    pub fn log<N>(&self, rhs: N) -> Self
    where
        Self: crate::operators::Logarithm<N, Output = Self>,
    {
        crate::operators::Logarithm::log(self, rhs)
    }

    pub fn modulo<N, O>(&self, rhs: N) -> O
    where
        Self: crate::operators::Modulo<N, Output = O>,
    {
        crate::operators::Modulo::modulo(self, rhs)
    }
}